{"id":79396,"date":"2025-03-06T13:04:36","date_gmt":"2025-03-06T12:04:36","guid":{"rendered":"https:\/\/www.geographie.nat.fau.de\/?page_id=79396"},"modified":"2025-03-06T13:04:39","modified_gmt":"2025-03-06T12:04:39","slug":"ag-braun","status":"publish","type":"page","link":"https:\/\/www.geographie.nat.fau.de\/en\/forschung\/ag-braun\/","title":{"rendered":"WG Remote sensing-GIS (Braun)"},"content":{"rendered":"<p><a href=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/02\/agbraun_forschung.png\"><img loading=\"lazy\" decoding=\"async\" class=\"alignleft size-medium wp-image-19855\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/agbraun_forschung-222x300.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/agbraun_forschung-222x300.png 222w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/agbraun_forschung-768x1039.png 768w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/agbraun_forschung-757x1024.png 757w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/agbraun_forschung-60x80.png 60w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/agbraun_forschung-111x150.png 111w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/agbraun_forschung-109x147.png 109w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/agbraun_forschung-81x110.png 81w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/agbraun_forschung-148x200.png 148w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/agbraun_forschung-348x470.png 348w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/agbraun_forschung-89x120.png 89w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/agbraun_forschung.png 1479w\" \/><\/a><strong>Our research focuses on aerial and satellite image analysis as well as geographic information systems. We use time series of optical earth observation systems in various spatial and spectral resolutions, from synthetic aperture radar systems(SAR) as well as other imaging and non-imaging sensors in combination with field measurements.<\/strong><\/p>\n<p>Our applications are in the field of glaciology and the effects of climate change on the cryosphere, including changes in ice dynamics, glacier mass balance and contributions to sea level or properties of snow and ice. Analyzes of land use and land cover change are also components of our work, such as applications in the field of nature conservation management, biodiversity research or studies on ecosystem functions.<\/p>\n<p>&nbsp;<\/p>\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-0\"><\/p>\n<div class=\"accordion-group natfak\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_0\" aria-expanded=\"false\" aria-controls=\"collapse_0\" id=\"collapse_button_0\"> Staff <\/button><\/h2>\n<div id=\"collapse_0\" class=\"accordion-body\" aria-labelledby=\"collapse_button_0\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"faudir\">\n<div class=\"format-compact\">\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-1089-3271\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background.png\" alt=\"AB\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background.png 350w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-300x300.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-150x150.png 150w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-60x60.png 60w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-240x240.png 240w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-320x320.png 320w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"350\"><meta itemprop=\"height\" content=\"350\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-1089-3271\"><span class=\"displayname\" itemprop=\"name\"><span class=\"namepart\"><span itemprop=\"givenName\">Alexandre<\/span> <span itemprop=\"familyName\">Becker Campos<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-9651-2730\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-scaled.jpg\" alt=\"MB\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-scaled.jpg 2064w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-242x300.jpg 242w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-826x1024.jpg 826w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-768x952.jpg 768w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-1239x1536.jpg 1239w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-1652x2048.jpg 1652w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-48x60.jpg 48w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-89x110.jpg 89w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-194x240.jpg 194w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-258x320.jpg 258w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/IMG_20220807_112138-379x470.jpg 379w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"2064\"><meta itemprop=\"height\" content=\"2560\"><meta itemprop=\"dateCreated\" content=\"2022-08-07T11:21:39+00:00\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-9651-2730\"><span class=\"displayname\" itemprop=\"name\"><abbr title=\"Professor Doctor\" itemprop=\"honorificPrefix\">Prof. Dr.<\/abbr> <span class=\"namepart\"><span itemprop=\"givenName\">Matthias<\/span> <span itemprop=\"familyName\">Braun<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-9928199-4970\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/11\/IMG-20210428-WA0003-e1774261855602.jpg\" alt=\"SF\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/11\/IMG-20210428-WA0003-e1774261855602.jpg 652w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/11\/IMG-20210428-WA0003-e1774261855602-267x300.jpg 267w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/11\/IMG-20210428-WA0003-e1774261855602-53x60.jpg 53w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/11\/IMG-20210428-WA0003-e1774261855602-214x240.jpg 214w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/11\/IMG-20210428-WA0003-e1774261855602-285x320.jpg 285w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/11\/IMG-20210428-WA0003-e1774261855602-419x470.jpg 419w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"652\"><meta itemprop=\"height\" content=\"732\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-9928199-4970\"><span class=\"displayname\" itemprop=\"name\"><abbr title=\"Doctor\" itemprop=\"honorificPrefix\">Dr.<\/abbr> <span class=\"namepart\"><span itemprop=\"givenName\">Sebastian<\/span> <span itemprop=\"familyName\">Feick<\/span><\/span> (<span itemprop=\"honorificSuffix\">Akad. ORat<\/span>)<\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-1439061-1513\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2020\/09\/fuerst_johannes_katleen-van-hoof-300x225-1-e1764858941894.jpg\" alt=\"JF\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2020\/09\/fuerst_johannes_katleen-van-hoof-300x225-1-e1764858941894.jpg 212w, https:\/\/www.geographie.nat.fau.de\/files\/2020\/09\/fuerst_johannes_katleen-van-hoof-300x225-1-e1764858941894-150x150.jpg 150w, https:\/\/www.geographie.nat.fau.de\/files\/2020\/09\/fuerst_johannes_katleen-van-hoof-300x225-1-e1764858941894-60x60.jpg 60w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"212\"><meta itemprop=\"height\" content=\"212\"><meta itemprop=\"copyrightNotice\" content=\"Privat\"><meta itemprop=\"name\" content=\"Dr. Johannes F\u00fcrst\"><meta itemprop=\"creditText\" content=\"Privat\"><meta itemprop=\"dateCreated\" content=\"2019-06-21T16:34:19+00:00\"><meta itemprop=\"keywords\" content=\"Portr\u00e4t, Portait, Gletscher\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-1439061-1513\"><span class=\"displayname\" itemprop=\"name\"><abbr title=\"Doctor\" itemprop=\"honorificPrefix\">Dr.<\/abbr> <span class=\"namepart\"><span itemprop=\"givenName\">Johannes<\/span> <span itemprop=\"familyName\">F\u00fcrst<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-450206-1048\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2021\/11\/211124_personen_gross_alexander.jpg\" alt=\"Profilfoto Groos Alexander\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2021\/11\/211124_personen_gross_alexander.jpg 200w, https:\/\/www.geographie.nat.fau.de\/files\/2021\/11\/211124_personen_gross_alexander-160x240.jpg 160w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"200\"><meta itemprop=\"height\" content=\"300\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-450206-1048\"><span class=\"displayname\" itemprop=\"name\"><abbr title=\"Doctor\" itemprop=\"honorificPrefix\">Dr.<\/abbr> <span class=\"namepart\"><span itemprop=\"givenName\">Alexander Raphael<\/span> <span itemprop=\"familyName\">Groos<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-173678139-2605\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2021\/12\/211201_personen_koch_moritz.jpg\" alt=\"Foto Moritz Koch\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2021\/12\/211201_personen_koch_moritz.jpg 200w, https:\/\/www.geographie.nat.fau.de\/files\/2021\/12\/211201_personen_koch_moritz-160x240.jpg 160w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"200\"><meta itemprop=\"height\" content=\"300\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-173678139-2605\"><span class=\"displayname\" itemprop=\"name\"><span class=\"namepart\"><span itemprop=\"givenName\">Moritz<\/span> <span itemprop=\"familyName\">Koch<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-35292-3933\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background.png\" alt=\"KL\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background.png 350w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-300x300.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-150x150.png 150w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-60x60.png 60w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-240x240.png 240w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-320x320.png 320w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"350\"><meta itemprop=\"height\" content=\"350\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-35292-3933\"><span class=\"displayname\" itemprop=\"name\"><abbr title=\"Doctor\" itemprop=\"honorificPrefix\">Dr.<\/abbr> <span class=\"namepart\"><span itemprop=\"givenName\">Karina Bruno<\/span> <span itemprop=\"familyName\">Lima<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-811759252-3427\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/IMG_9603-modified-e1764857353175.jpg\" alt=\"KL\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/IMG_9603-modified-e1764857353175.jpg 750w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/IMG_9603-modified-e1764857353175-300x300.jpg 300w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/IMG_9603-modified-e1764857353175-150x150.jpg 150w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/IMG_9603-modified-e1764857353175-60x60.jpg 60w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/IMG_9603-modified-e1764857353175-240x240.jpg 240w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/IMG_9603-modified-e1764857353175-320x320.jpg 320w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/IMG_9603-modified-e1764857353175-470x470.jpg 470w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"750\"><meta itemprop=\"height\" content=\"750\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-811759252-3427\"><span class=\"displayname\" itemprop=\"name\"><span class=\"namepart\"><span itemprop=\"givenName\">Katrina<\/span> <span itemprop=\"familyName\">Lutz<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-29360274-3244\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2024\/06\/240704_personen_pacheco_diego.jpg\" alt=\"DP\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2024\/06\/240704_personen_pacheco_diego.jpg 200w, https:\/\/www.geographie.nat.fau.de\/files\/2024\/06\/240704_personen_pacheco_diego-40x60.jpg 40w, https:\/\/www.geographie.nat.fau.de\/files\/2024\/06\/240704_personen_pacheco_diego-73x110.jpg 73w, https:\/\/www.geographie.nat.fau.de\/files\/2024\/06\/240704_personen_pacheco_diego-160x240.jpg 160w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"200\"><meta itemprop=\"height\" content=\"300\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-29360274-3244\"><span class=\"displayname\" itemprop=\"name\"><span class=\"namepart\"><span itemprop=\"givenName\">Diego Sebastian<\/span> <span itemprop=\"familyName\">Pacheco Ferrada<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-369826961-1737\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background.png\" alt=\"AP\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background.png 350w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-300x300.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-150x150.png 150w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-60x60.png 60w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-240x240.png 240w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/person-icon-on-a-transparent-background-320x320.png 320w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"350\"><meta itemprop=\"height\" content=\"350\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-369826961-1737\"><span class=\"displayname\" itemprop=\"name\"><span class=\"namepart\"><span itemprop=\"givenName\">Akash<\/span> <span itemprop=\"familyName\">Patil<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-819033-4936\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/Dakota-Pyles-Profile-Picture-e1764856641583.jpg\" alt=\"DP\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/Dakota-Pyles-Profile-Picture-e1764856641583.jpg 1470w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/Dakota-Pyles-Profile-Picture-e1764856641583-300x300.jpg 300w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/Dakota-Pyles-Profile-Picture-e1764856641583-1024x1024.jpg 1024w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/Dakota-Pyles-Profile-Picture-e1764856641583-150x150.jpg 150w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/Dakota-Pyles-Profile-Picture-e1764856641583-768x768.jpg 768w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/Dakota-Pyles-Profile-Picture-e1764856641583-60x60.jpg 60w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/Dakota-Pyles-Profile-Picture-e1764856641583-240x240.jpg 240w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/Dakota-Pyles-Profile-Picture-e1764856641583-320x320.jpg 320w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/Dakota-Pyles-Profile-Picture-e1764856641583-470x470.jpg 470w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"1470\"><meta itemprop=\"height\" content=\"1470\"><meta itemprop=\"dateCreated\" content=\"2022-10-16T03:35:57+00:00\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-819033-4936\"><span class=\"displayname\" itemprop=\"name\"><span class=\"namepart\"><span itemprop=\"givenName\">Dakota Robin<\/span> <span itemprop=\"familyName\">Pyles<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-30788-4233\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/person_seehaus_thorsten.jpg\" alt=\"TS\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/person_seehaus_thorsten.jpg 200w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/person_seehaus_thorsten-100x150.jpg 100w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/person_seehaus_thorsten-98x147.jpg 98w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/person_seehaus_thorsten-73x110.jpg 73w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/person_seehaus_thorsten-133x200.jpg 133w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/person_seehaus_thorsten-80x120.jpg 80w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"200\"><meta itemprop=\"height\" content=\"300\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-30788-4233\"><span class=\"displayname\" itemprop=\"name\"><abbr title=\"Doctor\" itemprop=\"honorificPrefix\">Dr.<\/abbr> <span class=\"namepart\"><span itemprop=\"givenName\">Thorsten<\/span> <span itemprop=\"familyName\">Seehaus<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-6416183-1738\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/SommerC_pic2.jpg\" alt=\"CS\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/SommerC_pic2.jpg 1200w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/SommerC_pic2-225x300.jpg 225w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/SommerC_pic2-768x1024.jpg 768w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/SommerC_pic2-60x80.jpg 60w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/SommerC_pic2-90x120.jpg 90w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/SommerC_pic2-180x240.jpg 180w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/SommerC_pic2-240x320.jpg 240w, https:\/\/www.geographie.nat.fau.de\/files\/2017\/12\/SommerC_pic2-353x470.jpg 353w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"1200\"><meta itemprop=\"height\" content=\"1599\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-6416183-1738\"><span class=\"displayname\" itemprop=\"name\"><abbr title=\"Doctor\" itemprop=\"honorificPrefix\">Dr.<\/abbr> <span class=\"namepart\"><span itemprop=\"givenName\">Christian<\/span> <span itemprop=\"familyName\">Sommer<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-615756-4123\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/FT_Profilbild_quadrat.png\" alt=\"FT\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/FT_Profilbild_quadrat.png 500w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/FT_Profilbild_quadrat-300x300.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/FT_Profilbild_quadrat-150x150.png 150w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/FT_Profilbild_quadrat-60x60.png 60w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/FT_Profilbild_quadrat-240x240.png 240w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/FT_Profilbild_quadrat-320x320.png 320w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/03\/FT_Profilbild_quadrat-470x470.png 470w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"500\"><meta itemprop=\"height\" content=\"500\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-615756-4123\"><span class=\"displayname\" itemprop=\"name\"><abbr title=\"Doctor\" itemprop=\"honorificPrefix\">Dr.<\/abbr> <span class=\"namepart\"><span itemprop=\"givenName\">Franziska<\/span> <span itemprop=\"familyName\">Temme<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-62359-4273\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/WhatsApp-Image-2023-10-11-at-3.34.54-PM-e1764858293715.jpeg\" alt=\"VT\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/WhatsApp-Image-2023-10-11-at-3.34.54-PM-e1764858293715.jpeg 600w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/WhatsApp-Image-2023-10-11-at-3.34.54-PM-e1764858293715-300x300.jpeg 300w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/WhatsApp-Image-2023-10-11-at-3.34.54-PM-e1764858293715-150x150.jpeg 150w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/WhatsApp-Image-2023-10-11-at-3.34.54-PM-e1764858293715-60x60.jpeg 60w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/WhatsApp-Image-2023-10-11-at-3.34.54-PM-e1764858293715-240x240.jpeg 240w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/WhatsApp-Image-2023-10-11-at-3.34.54-PM-e1764858293715-320x320.jpeg 320w, https:\/\/www.geographie.nat.fau.de\/files\/2023\/10\/WhatsApp-Image-2023-10-11-at-3.34.54-PM-e1764858293715-470x470.jpeg 470w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"600\"><meta itemprop=\"height\" content=\"600\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-62359-4273\"><span class=\"displayname\" itemprop=\"name\"><span class=\"namepart\"><span itemprop=\"givenName\">Vijaya Kumar<\/span> <span itemprop=\"familyName\">Thota<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<section class=\"format-compact-container\" aria-labelledby=\"section-title-897657-3959\" itemscope itemtype=\"https:\/\/schema.org\/Person\">\n<div class=\"profile-image-section\">\n<figure itemprop=\"image\" itemscope itemtype=\"http:\/\/schema.org\/ImageObject\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/12\/person_warnstedt_antonia_sw_q_klein.jpg\" alt=\"AW\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2025\/12\/person_warnstedt_antonia_sw_q_klein.jpg 1902w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/12\/person_warnstedt_antonia_sw_q_klein-300x300.jpg 300w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/12\/person_warnstedt_antonia_sw_q_klein-1024x1024.jpg 1024w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/12\/person_warnstedt_antonia_sw_q_klein-150x150.jpg 150w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/12\/person_warnstedt_antonia_sw_q_klein-768x768.jpg 768w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/12\/person_warnstedt_antonia_sw_q_klein-1536x1536.jpg 1536w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/12\/person_warnstedt_antonia_sw_q_klein-60x60.jpg 60w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/12\/person_warnstedt_antonia_sw_q_klein-240x240.jpg 240w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/12\/person_warnstedt_antonia_sw_q_klein-320x320.jpg 320w, https:\/\/www.geographie.nat.fau.de\/files\/2025\/12\/person_warnstedt_antonia_sw_q_klein-470x470.jpg 470w\" itemprop=\"contentUrl\"><meta itemprop=\"width\" content=\"1902\"><meta itemprop=\"height\" content=\"1902\"><meta itemprop=\"dateCreated\" content=\"2022-10-20T16:50:25+00:00\"><meta itemprop=\"license\" content=\"https:\/\/www.geographie.nat.fau.de\/imprint\"><\/figure>\n<\/p>\n<\/div>\n<header class=\"profile-header\">\n<h1 id=\"section-title-897657-3959\"><span class=\"displayname\" itemprop=\"name\"><span class=\"namepart\"><span itemprop=\"givenName\">Antonia<\/span> <span itemprop=\"familyName\">Warnstedt<\/span><\/span><\/span><\/h1>\n<\/header>\n<div class=\"profile-details\">   \n                                         <\/div>\n<\/section>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group natfak\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_1\" aria-expanded=\"false\" aria-controls=\"collapse_1\" id=\"collapse_button_1\"> Research projects <\/button><\/h2>\n<div id=\"collapse_1\" class=\"accordion-body\" aria-labelledby=\"collapse_button_1\">\n<div class=\"accordion-inner clearfix\">\n<strong>Current projects<\/strong><\/p>\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-1\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"PAGE\" href=\"#collapse_2\" aria-expanded=\"false\" aria-controls=\"collapse_2\" id=\"collapse_button_2\"> PAGE Past, Present, and Future Glacier Evolution in the Tropical Andes <\/button><\/h2>\n<div id=\"collapse_2\" class=\"accordion-body\" name=\"PAGE\" aria-labelledby=\"collapse_button_2\">\n<div class=\"accordion-inner clearfix\">\n<p>Project staff: <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/thorsten-seehaus\/\">Thorsten Seehaus<\/a> (PI), Diego Pacheco Ferrada<\/p>\n<p>Glaciers and ice caps outside the polar ice sheets are strongly affected by climate change, and<br \/>\nvarious observables are defined as essential climate variables. Glacier shrinkage has local to<br \/>\nregional-scale impacts on hydrology, ecosystems, and society. In the Tropical Andes, the<br \/>\nglaciers pose an important water resource and significantly contribute to the local and regional<br \/>\nwater supply, especially during the dry season and drought periods. Moreover, glacier retreat<br \/>\nincreases the risk of glacier lake outburst floods putting downstream communities at risk. To<br \/>\nimprove future water management and risk assessment as well as to evaluate the impact of<br \/>\nclimate variations, region-wide and detailed information on the past, present, and future glacier<br \/>\nevolution in the Tropical Andes is required. Current glacier mass change estimates have<br \/>\nspatiotemporal limitations and often considerable uncertainties, while regional projections,<br \/>\ncarried out within global analyses, show partly ambiguous trends.<br \/>\nThis project aims to overcome these deficiencies by comprehensively analyzing the Tropical<br \/>\nAndes&#8217; past, present, and future glacier evolution. An improved regional assessment of current<br \/>\nand future glacier changes will be conducted based on an innovative combination of multi-<br \/>\nmission remote sensing data, in-situ measurements, and glacier and hydrological modeling. In<br \/>\ncombination with data on past glacier changes, which are obtained by exploiting unique remote<br \/>\nsensing archives, the evaluation of the long-term trend and its relation with climate change will<br \/>\nbe facilitated. By assimilating the new remote sensing products and in-situ observations into an<br \/>\nice-dynamic model inversion, highly improved ice volume distribution information will be<br \/>\ngenerated. Projections of glacier evolution for the Tropical Andes until 2100 using mass balance<br \/>\nmodeling, optimized for the tropics, and fully 3-dimensional glacier modeling will be conducted<br \/>\nto overcome the shortcomings of existing global estimates. Those activities will facilitate the<br \/>\nsubsequent study of the glacier lakes evolution and the glacier meltwater contribution to<br \/>\ncatchment runoff.<br \/>\nThe outcomes of this project will include novel and improved regional information regarding the<br \/>\nglacier evolution in the Tropical Andes and methodological advances. These comprise (1)<br \/>\nregion-wide enhanced quantification of the ongoing glacier changes, the evaluation of its long-<br \/>\nterm trend and correlation with climatic variations, (2) development of innovative remote sensing<br \/>\nand modeling techniques, (3) improved ice thickness information and projections of glacier and<br \/>\nrunoff evolution using fully coupled, 3D-distributed, and optimized modeling.<\/p>\n<p><img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-medium wp-image-47451\" src=\"https:\/\/www.geography.nat.fau.eu\/files\/2024\/06\/logo-emmy-noether-gross-data-300x176.jpg\" alt=\"\" \/><\/p>\n<p>Funded within the Emmy Noether Programme of the German Research Foundation (DFG)<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"M3OCCA\" href=\"#collapse_3\" aria-expanded=\"false\" aria-controls=\"collapse_3\" id=\"collapse_button_3\"> M\u00b3OCCA International Doctoral Program <\/button><\/h2>\n<div id=\"collapse_3\" class=\"accordion-body\" name=\"M3OCCA\" aria-labelledby=\"collapse_button_3\">\n<div class=\"accordion-inner clearfix\">\n<h2>International Doctoral Programme: Measuring and Modelling Mountian Glaciers in a Changing Climate (IDP M\u00b3OCCA)<\/h2>\n<p>Lead: <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/franziska-temme-m-sc\/\">Franzika Temme<\/a> (Coordination), <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/johannes-fuerst\/\">Johannes F\u00fcrst<\/a>, <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/ilaria-tabone\/\">Illaria Tabone<\/a>, <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/matthias-braun\/\">Matthias Braun<\/a> (Speacker), <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/thorsten-seehaus\/\">Thorsten Seehaus<\/a><\/p>\n<p>Improve current mass change estimates of glaciers by innovatve technologies, develop new and improve existing algorithms for variable retrieval by deep learning. In addition, we aim at assimilating and linking various geophysical models and improve their performance by machine learning techniques. For more information on IDP M\u00b3OCCA please visit the <a href=\"https:\/\/www.geography.nat.fau.eu\/?p=25085\">project website<\/a>.<\/p>\n<p>In cooperation with FAU (Informatics, Mathematics, Electrical Engineering), Bavarian Academy of Sciences, DLR Microwave Radar Institute in Oberpfaffenhofen and Technical University of Munich<\/p>\n<p>Funding period 2022-2025<\/p>\n<p>Funded within the Elite Network Bavaria by the Bavarian State Ministry of Science and the Arts<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"CSAPIS\" href=\"#collapse_4\" aria-expanded=\"false\" aria-controls=\"collapse_4\" id=\"collapse_button_4\"> CSAPIS Climate sensitivity of western Antarctic Peninsula ice shelves <\/button><\/h2>\n<div id=\"collapse_4\" class=\"accordion-body\" name=\"CSAPIS\" aria-labelledby=\"collapse_button_4\">\n<div class=\"accordion-inner clearfix\">\n<h2 class=\"facelift\">Climate sensitivity of western Antarctic Peninsula ice shelves (CSAPIS)<\/h2>\n<p>Project staff: Matthias Braun, Antonia Warnstedt, Martin R\u00fcckamp<\/p>\n<div id=\"projekttext\">Most ice shelves on the western Antarctic Peninsula show or have experienced considerable retreat or even complete disintegration in the last few decades. Recent studies have linked this partly to upwelling of warm Circumpolar Deep Water (CDW), which is supposed to influence particularly the southwestern Antarctic Peninsula region. However, the exact processes and mechanisms as well as the sensitivity of the region to further ice shelf and glacier thinning and retreat are not known or not well constrained. This is partly because of lacking observations and the demanding modelling efforts. In this study, we propose to analyse time series of remote sensing data to derive various glaciological variables such as surface velocities, surface elevation change, grounding line and ice front positions as well as structural variables. We will provide this analysis for entire large-scale catchments on the southwestern Antarctic Peninsula. We will combine the remote sensing data sets to compute temporally high-resolution ice mass discharge estimates with two independent methods. Those data sets will form a contribution to international efforts such as Ice sheet Mass Balance Inter-comparison Exercise (IMBIE) or the next report of the Intergovernmental Panel of Climate Change (IPCC). The above-mentioned remote sensing products will then be used for calibration and validation in forward simulations for the ice shelve retreat in the region with an ice dynamic model. The employed ice flow model is the Ice-Sheet and Sea-level system model (ISSM) in Blatter-Pattyn approximation and an envisaged resolution down to 200-500 m at the grounding line. The aim of the numerical modelling studies is two-fold. In a first step, the mechanisms for recent ongoing changes are investigated. Here, we focus on the importance of ice-shelf buttressing and the impact of ice shelf melting (ice-ocean interaction). This step heavily builds on remote sensing products assessing the quality of the transient simulations. In a second step, the future stability of ice shelves and glacier tributaries is estimated. In accordance with the COordinated Regional Downscaling EXperiment (Polar-CORDEX) modelling strategy, the focus is on the Representative Concentration Pathway (RCP) 8.5 scenario. To tackle these questions, we will rely on suitable oceanic and atmospheric fields. In particular, we strive to use data-sets of the ongoing efforts with the Finite Element Sea ice-Ocean Model (FESOM) to include ice shelf cavities in the modelling framework (ongoing ECHAM6-FESOM coupling for the Climate Model Intercomparison Project (CMIP) 6 and from the Polar-CORDEX activity).<\/div>\n<div>\n<p>Funding period 2022-2025<\/p>\n<p>Funded within the DFG Priority Programme Antarctic Research SPP1158<\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"UNLOC\" href=\"#collapse_5\" aria-expanded=\"false\" aria-controls=\"collapse_5\" id=\"collapse_button_5\"> UNLOC Unlocking the glaciological information of historical aerial imagery to obtain long-term glacier mass balance information and to identify drivers of glacier changes on the Antarctic Peninsula <\/button><\/h2>\n<div id=\"collapse_5\" class=\"accordion-body\" name=\"UNLOC\" aria-labelledby=\"collapse_button_5\">\n<div class=\"accordion-inner clearfix\">\n<h2>Unlocking the glaciological information of historical aerial imagery to obtain long-term glacier mass balance information and to identify drivers of glacier changes on the Antarctic Peninsula (UNLOC)<\/h2>\n<p>Project staff: <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/thorsten-seehaus\/\">Thorsten Seehaus,<\/a> Vijaya Kumar Thota<\/p>\n<p>The Antarctic Peninsula is a hot spot of global warming and leading to considerable changes in its ice sheet and outlet glaciers. Pronounced glacier recession has been reported since the 1950s throughout the Antarctic Peninsula and many of its ice shelves disintegrated or significantly retreated within the last decades. Consequently, the ice masses of the Antarctic Peninsula contribute significantly to global sea-level rise. However, estimates of the mass budget of the Antarctic Peninsula are subjected to considerable uncertainties due to various issues. Moreover, long-term information on the evolution of the mass balances exists only for a very limited amount of glaciers.Since the 1950s, various aerial campaigns were carried out to map the Antarctic Peninsula. The acquired photogrammetric imagery poses a \u201ctime capsule\u201d of information on the historic glacier states. Thus, we aim within this project to unlock this information from the historic aerial imagery by applying state-of-the-art photogrammetric analysis techniques to reconstruct the former glacier surface elevations. The analysis will be supported by providing precise ground control points, which will be acquired during a joint aerial survey with AWI and DLR in late 2022. By combining the information revealed from the historic imagery with recent surface elevation information from the German bistatic SAR mission TanDEM-X, the computation of long-term glacier volume and mass changes on the Antarctic Peninsula will be facilitated. Finally, all available information on glacier changes will be correlated with oceanic, atmospheric, and glacier geometry parameters in order to identify driving factors of the revealed glacier variations. This information will facilitate a better understanding of the ongoing processes and interaction between the different spheres, and will be highly beneficial for projections of glacier evolution on the AP Ice Sheet and future sea-level rise contribution.<\/p>\n<p>Funding period 2023-2026<\/p>\n<p>Funded within the DFG Priority Programme Antarctic Research SPP1158<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"LASSI\" href=\"#collapse_6\" aria-expanded=\"false\" aria-controls=\"collapse_6\" id=\"collapse_button_6\"> LASSI Large-scale Automatic Calving Front Segmentation and Frontal Ablation Analysis of Arctic Glaciers using Synthetic-Aperture Radar Image Sequences <\/button><\/h2>\n<div id=\"collapse_6\" class=\"accordion-body\" name=\"LASSI\" aria-labelledby=\"collapse_button_6\">\n<div class=\"accordion-inner clearfix\">\n<h2>Large-scale Automatic Calving Front Segmentation and Frontal Ablation Analysis of Arctic Glaciers using Synthetic-Aperture Radar Image Sequences (LASSI)<\/h2>\n<p>Project staff: <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/thorsten-seehaus\/\">Thorsten Seehaus,<\/a> <a href=\"https:\/\/lme.tf.fau.de\/person\/christlein\/\">Vincent Christlein<\/a>, Daktoa Pyles, Marcel Dreier<\/p>\n<p>The arctic glaciers are strongly affected by global climate change, in particular due to the Arctic amplification phenomenon. Thus, they contribute significantly to current sea level rise. There exists only sparse information on glacier front variations as well as the evolution of frontal ablation and its drivers for the huge amount of tide water glaciers in the Arctic. However, the steadily increasing amount of available remote sensing data, in particular since the launch of the Sentinel satellites within the Copernicus Program by ESA and the European Commission, facilitates large-scale spatio-temporal monitoring of glacier changes. Within the proposed project, we aim at applying deep learning techniques to automatically map calving front positions of arctic tidewater glaciers, by means of Sentinel-1 SAR imagery. Therefore, we will implement and evaluate different deep learning segmentation models, including also time-series information from SAR image sequences. To improve the robustness and performance of our segmentation results, we will enlarge the field-of-view by incorporating attention mechanisms, apply multi-task learning, and fine-tune our best model in a semi-supervised manner on glaciers not yet included in the training database. Uncertainty bounds will increase the interpretability of our model\u2019s results. For the best performing approach, a fully automated operational processing pipeline will be implemented and applied on the huge amount of available Sentinel-1 imagery throughout the Arctic. Subsequently, the obtained information on glacier front changes will be combined with information on ice flux at the termini and climatic mass balance data to estimate frontal ablation. By including information on total mass balances of the glaciers and climatic mass balance data from regional climate modeling or down-scaling of reanalysis data, the contribution of frontal and surface mass balances to the total mass balance will be estimated. Finally, the obtained results on glacier changes in combination with information on atmospheric, oceanic, sea ice, and glacier geometry parameters will be analyzed using multivariate statistical approaches to identify the drivers of the observed glacier changes. The project results will enhance our understanding of the ongoing processes and cross-links between the different spheres. Moreover, we will obtain fundamental reference data for numerical glacier modeling, subsequently leading to improved projections of glacier evolution and sea-level changes.<\/p>\n<p>Funding period 2022-2025<\/p>\n<p>Funded within the DFG Priority Programme Antarctic Research SPP1158<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"INSULATE-APGCP\" href=\"#collapse_7\" aria-expanded=\"false\" aria-controls=\"collapse_7\" id=\"collapse_button_7\"> INSULATE &amp; APPM - Geodetic &amp; geophysical airborne surveys on the Ant. Pen. <\/button><\/h2>\n<div id=\"collapse_7\" class=\"accordion-body\" name=\"INSULATE-APGCP\" aria-labelledby=\"collapse_button_7\">\n<div class=\"accordion-inner clearfix\">\n<h2>Polar-5 geodetic &amp; geophysical airborne surveys on the Antarctic Peninsula (INSULATE &amp; APGCP)<\/h2>\n<p>Project staff: <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/thorsten-seehaus\/\">Thorsten Seehaus<\/a>, <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/matthias-braun\/\">Matthias Braun<\/a><\/p>\n<p>The aim of this airborne survey is to acquire high-resolution aerial photography on the south-central Antarctic peninsula using the high-resolution Polar-MACS camera system. In addition, laser scanning and radio echo sounding will be carried out on Wordie Ice Shelf tributary glaciers.<\/p>\n<p>In cooperation with AWI Bremerhaven and DLR Adlershof<\/p>\n<p>Funding period 2021 &amp; 2022 (postponed to 2023 &amp;2024)<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"PataFuego\" href=\"#collapse_8\" aria-expanded=\"false\" aria-controls=\"collapse_8\" id=\"collapse_button_8\"> PataFuego 2021 &amp; 2022 - Polar-5 geodetic &amp; geophysical airborne surveys <\/button><\/h2>\n<div id=\"collapse_8\" class=\"accordion-body\" name=\"PataFuego\" aria-labelledby=\"collapse_button_8\">\n<div class=\"accordion-inner clearfix\">\n<h2>Polar-5 geodetic &amp; geophysical airborne surveys in Fuego-Patagonia (PataFuego 2021 &amp; 2022)<\/h2>\n<p>Project staff: Moritz Koch, Matthias Braun, Johannes F\u00fcrst<\/p>\n<p>The activity aims at acquiring various glaciological variables over the icefield and glaciers of Patagonia and Tierra del Fuego. The Polar-5 aircraft is operated out of Puerto Natales, Chile. We acquire data with various sensor systems like laser scanner, a long-range laser altimeter, high-resolution aerial photography, accumulation radar and various meteorological instruments. We repeat tracks of previous measurements by other groups in order to allow precise elevation change measurements. The data also serves as reference for spaceborne elevation change measurements from the german TanDEM-X mission.<\/p>\n<p>In cooperation with AWI Bremerhaven, TU Dresden and\u00a0 TU Darmstadt as well as various partners from South America<\/p>\n<p>Funding period 2021 &amp; 2022<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"ITERATE\" href=\"#collapse_9\" aria-expanded=\"false\" aria-controls=\"collapse_9\" id=\"collapse_button_9\"> ITERATE - Glaciological studies in Southern Patagonia ... <\/button><\/h2>\n<div id=\"collapse_9\" class=\"accordion-body\" name=\"ITERATE\" aria-labelledby=\"collapse_button_9\">\n<div class=\"accordion-inner clearfix\">\n<a id=\"SATELLITE\"><\/a><\/p>\n<h2><span lang=\"en-GB\">Ice thickness, remote sensing and sensitivity experiments using ice-flow modelling for<br \/>\nmajor outlet glaciers of the Southern Patagonian Icefield (ITERATE)<br \/>\n<\/span><\/h2>\n<p>Project staff: Moritz Koch, Matthias Braun, Johannes F\u00fcrst<\/p>\n<p>The project aims at improving our process understanding of glacier changes and their constraints and sensitivities to potential future perturbations. In order to achieve those goals we will acquire new data, update our existing comprehensive spatial databases and combine information into local-scale ice-flow modelling and an analysis of different forcing scenarios. Specifically we will acquire additional ice thickness data using helicopter-based ice penetrating radar surveys as well as airborne laser scanning surveys. The airborne surveys are carried our in close cooperation our international partners. We will temporally densify our spatial information on glacier extent from optical satellite data, compute surface velocity fields by intensity offset tracking from regular Sentinel-1 radar imagery and compute improved surface elevation and mass change estimates. We will assimilate our spatial fields in a state-of-the-art ice thickness reconstruction approach. Latter will be constraint by the new and existing ice thickness measurements from different groups as well as by novel bathymetric data in order to generate a new map of the bedrock topography. We will adapt our existing reconstruction approach since we will have to weight the different ice thickness measurements in regard to their quality. The last task comprises the setup of high-resolution ice dynamic models for specific glaciers, namely Perito Moreno, Upsala and Viedma glaciers. We will specifically test different calving routines implemented in ELMER\/Ice and perform perturbation experiments in order to test the glaciers\u2019 sensitivity on certain variables and parameters like bed elevation, basal friction, lake level, calving parameters and frontal ablation.<\/p>\n<p>Funding period 2021-2024<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"MIT-AP\" href=\"#collapse_10\" aria-expanded=\"false\" aria-controls=\"collapse_10\" id=\"collapse_button_10\"> MIT-AP - Mass balance and ice dynamics of Antarctic Peninsula glaciers <\/button><\/h2>\n<div id=\"collapse_10\" class=\"accordion-body\" name=\"MIT-AP\" aria-labelledby=\"collapse_button_10\">\n<div class=\"accordion-inner clearfix\">\n<a id=\"SATELLITE\"><\/a><\/p>\n<h2>Mass balance and ice dynamics of Antarctic Peninsula glaciers (MIT-AP)<\/h2>\n<p>Project staff: <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/thorsten-seehaus\/\">Thorsten Seehaus<\/a><\/p>\n<p>Pronounced climatic changes have been observed at the Antarctic Peninsula within the past decades and its glaciers and ice caps have been identified as a significant contributor to global sea level rise. Dynamic thinning and speed-up was reported for various tidewater glaciers on the western Antarctic Peninsula. On the east coast, several ice shelves disintegrated since 1995. Consequently, former tributary glaciers showed increased flow velocities due to the missing buttressing, leading to substantial ice mass loss. Various studies were carried out to quantify the ice mass loss and ice discharge to the ocean at the Antarctic Peninsula using different approaches. However, the results are still subject to substantial uncertainties, in particular for the northern section of the Antarctic Peninsula (&lt;70\u00b0S).<\/p>\n<p>Thus, the aim of this project is to carry out an enhanced analysis of glacier mass balances and ice dynamics throughout the Antarctic Peninsula (&lt;70\u00b0S) using various remote sensing data, in-situ measurements and model output. By analyzing bistatic SAR satellite acquisitions, an unprecedented spatial coverage with surface elevation change information at the study area will be achieved to compute multi-temporal geodetic glacier mass balances on regional and glacier scales. Information on ice dynamics will be derived from multi-mission SAR acquisitions using offset tracking techniques. In combination with latest ice thickness data sets the spatiotemporal variability of the ice discharge to the ocean will be evaluated. By including information from in-situ measurements and model output of atmospheric and oceanic parameters, driving factors of the obtained change patterns will be assessed to enhance the understanding of the ongoing change processes.<\/p>\n<p>The project results will contribute fundamental information to international initiatives and institutions like IMBIE, IPCC and WGMS and address several \u201cAdvancing Earth System Science Challenges of the Living Planet\u201d, defined by ESA.<\/p>\n<p>Funding period 2020-2022<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"SATELLITE\" href=\"#collapse_11\" aria-expanded=\"false\" aria-controls=\"collapse_11\" id=\"collapse_button_11\"> SATELLITE - Global glacier elevation changes from TanDEM-X <\/button><\/h2>\n<div id=\"collapse_11\" class=\"accordion-body\" name=\"SATELLITE\" aria-labelledby=\"collapse_button_11\">\n<div class=\"accordion-inner clearfix\">\n<a id=\"SATELLITE\"><\/a><\/p>\n<h2>SATELLITE &#8211; A stochastic eStimATe of sEa Level contribution from gLaciers and Ice caps using satellite remoTe sEnsing<\/h2>\n<p>Project staff: <a href=\"https:\/\/www.geographie.nat.fau.de\/person\/christian-sommer\/\">Christian Sommer<\/a>, <a href=\"https:\/\/www.geographie.nat.fau.de\/person\/philipp-malz\/\">Philipp Malz<\/a>, , <a href=\"https:\/\/www.geographie.nat.fau.de\/person\/matthias-braun\/\">Matthias Braun<\/a><\/p>\n<p><img loading=\"lazy\" decoding=\"async\" class=\" wp-image-24382 alignleft\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/10\/chiantar_3d-300x163.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/10\/chiantar_3d-300x163.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/10\/chiantar_3d-768x416.png 768w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/10\/chiantar_3d-1024x555.png 1024w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/10\/chiantar_3d-277x150.png 277w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/10\/chiantar_3d-220x119.png 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/10\/chiantar_3d-203x110.png 203w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/10\/chiantar_3d-140x76.png 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/10\/chiantar_3d-867x470.png 867w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/10\/chiantar_3d-145x79.png 145w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/10\/chiantar_3d.png 2000w\" \/><\/p>\n<p>The project aims at deriving a stochastic global sampling for ice volume and mass loss of glaciers and ice caps based on repeat satellite observations. For this purpose we will develop a respective sampling strategy. We propose two observation intervals: a period 2000-2012 between 56\u00b0S and 60\u00b0N and a second interval covering 2012 to 2014 or later (globally) in order to quantify potential changes in ice volume\/mass loss rates.<\/p>\n<p>Geodetic glacier-specific mass balances will enable us to quantitatively compare changes and change rates in different regions of the world using the same methodology. We base our analysis on data from the German satellite mission TanDEM-X and integrate it with observations and data products from other sources (like SRTM, ASTER, Landsat, ICESat-1\/2, WGMS records, field and airborne measurements). The German TanDEM-X satellite mission operated since 2010 provides a unique database with its bi-static satellite configuration.<\/p>\n<p>&nbsp;<\/p>\n<p>Funding period : 2016-2019<\/p>\n<p>Website: <a href=\"http:\/\/www.spp-sealevel.de\">www.spp-sealevel.de<\/a><\/p>\n<p>Funded by<a href=\"http:\/\/www.dfg.de\/\" target=\"_blank\" rel=\"noopener\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-19776 size-medium aligncenter noshadow\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DFG1-300x38-300x38.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-220x28.png 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-140x18.png 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-145x18.png 145w\" \/><\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"FRAGILE\" href=\"#collapse_12\" aria-expanded=\"false\" aria-controls=\"collapse_12\" id=\"collapse_button_12\"> FRAGILE - Next generation framework for global glacier forecasting <\/button><\/h2>\n<div id=\"collapse_12\" class=\"accordion-body\" name=\"FRAGILE\" aria-labelledby=\"collapse_button_12\">\n<div class=\"accordion-inner clearfix\">\n<a id=\"FRAGILE\"><\/a><\/p>\n<h2>FRAGILE &#8211; Next generation framework for global glacier forecasting<\/h2>\n<p>Worldwide glacier retreat outside the two large ice sheets is increasingly tangible and the associated ice-loss has dominated the cryospheric contribution to sea-level change for many decades. <a href=\"https:\/\/www.geographie.nat.fau.de\/files\/2021\/03\/logo_fragile2.png\"><img loading=\"lazy\" decoding=\"async\" class=\"alignright size-medium wp-image-20102\" src=\"https:\/\/www.geographie.nat.fau.de\/files\/2021\/03\/logo_fragile2.png\" alt=\"\" \/><\/a> This retreat has also become symbolic for the effects of the generally warming climate. Despite the anticipated importance for future sea-level rise, continuing glacier retreat will affect seasonal freshwater availability and might add to regional water-stress in this century. Here, I envision a novel self-consistent, ice-dynamic forecasting framework for global glacier evolution that will lift the confidence in forward projections for this century to new heights. For the first time, each glacier on Earth will be treated as a three-dimension body within its surrounding topography without using any form of geometric simplification. The heart of the framework is the systematic utilisation of the rapidly growing body of information from satellite remote sensing. For this purpose, I intend to pass on to ensemble assimilation techniques that transiently consider measurements as they become available. This will streamline and increase the total information flow into glacier models. In terms of climatic forcing, global products will be replaced by regional forecasts with high-resolution climate models. Moreover, a more realistic representation of the local energy balance at the glacier surface is pursued that ensures multi-decadal stability in the melt formulation. The envisaged 3D finite-element modelling framework also allows a direct integration of iceberg calving, which is, on global scales, an oftenunconsidered dynamic ice-loss term. To this day, a key limitation of glacier projections is the poorly constrained ice volume and its distribution at present. Here, I put forward a promising remedy that builds on multi-temporal satellite information to calibrate a state-of-the-art reconstruction approach for mapping basinwide ice thickness on virtually any glacier.<\/p>\n<p>&nbsp;<\/p>\n<p>European Research Council (ERC) &#8211; Starting Grant<br \/>\nPeriod: 2021 &#8211; 2026<br \/>\nProject staff: <a href=\"https:\/\/www.geographie.nat.fau.de\/person\/theresa-diener\/\">Theresa Diener<\/a>, <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/johannes-fuerst\/\">Johannes F\u00fcrst<\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"GROCE\" href=\"#collapse_13\" aria-expanded=\"false\" aria-controls=\"collapse_13\" id=\"collapse_button_13\"> GROCE - Supra-glacial melt water at the 79\u00b0 Glacier, Greenland <\/button><\/h2>\n<div id=\"collapse_13\" class=\"accordion-body\" name=\"GROCE\" aria-labelledby=\"collapse_button_13\">\n<div class=\"accordion-inner clearfix\">\n<h2>GROCE (TP 7): Supra-glacial melt water at the 79\u00b0 Glacier, Greenland<\/h2>\n<p>Project staff: <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/phillipp-hochreuther\/\">Katrina Bartek<\/a>, <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/matthias-braun\/\">Matthias Braun<\/a><\/p>\n<p>The subproject will detect supra-glacial meltwater ponds in its spatial and temporal variation. Hereto, data of various national and European SAR systems, like TerraSAR-X and TandDEM-X, COSMO-Skymed, Sentinel-1 as well as optical data from the Sentinel-2 mission will be used. To map the melt dynamics and the supra-glacial lakes we develop novel algorithms based on deep learning. We will also estimate the depth and volume of the meltwater ponds combining field observations and data from the NASA ICESat-2 spaceborne laser altimeter.<\/p>\n<p>Project partners:<\/p>\n<ul>\n<li><a href=\"http:\/\/www.awi.de\/\" target=\"_blank\" rel=\"noopener\">Alfred-Wegener-Institut, Helmholtz-Zentrum f\u00fcr Polar- und Meeresforschung (AWI)<\/a><\/li>\n<li>\n<div class=\"klausi-listitem\"><a href=\"http:\/\/www.geomar.de\/\" target=\"_blank\" rel=\"noopener\">GEOMAR &#8211; Helmholtz Zentrum f\u00fcr Ozeanforschung<\/a><\/div>\n<\/li>\n<li>\n<div class=\"klausi-listitem\"><a href=\"https:\/\/www.marum.de\/\" target=\"_blank\" rel=\"noopener\">Marum &#8211; Zentrum f\u00fcr Marine Umweltwissenschaften der Universit\u00e4t Bremen<\/a><\/div>\n<\/li>\n<li>\n<div class=\"klausi-listitem\"><a href=\"https:\/\/tu-dresden.de\/\" target=\"_blank\" rel=\"noopener\">Technische Universit\u00e4t Dresden<\/a><\/div>\n<\/li>\n<li>\n<div class=\"klausi-listitem\"><a href=\"http:\/\/www.uni-bonn.de\" target=\"_blank\" rel=\"noopener\">Universit\u00e4t Bonn<\/a><\/div>\n<\/li>\n<\/ul>\n<p>Laufzeit: 2017 &#8211; 2020, 2020-2023<\/p>\n<p>Web site: <a href=\"http:\/\/groce.de\/\">www.groce.de<\/a><\/p>\n<p>Funded by <img loading=\"lazy\" decoding=\"async\" class=\"noshadow alignnone wp-image-23900 size-medium\" src=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/11\/BMBF-logo-1-300x188.png\" alt=\"\" \/><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"MAGIC\" href=\"#collapse_14\" aria-expanded=\"false\" aria-controls=\"collapse_14\" id=\"collapse_button_14\"> MAGIC - The Mountain Glacier Forecast Framework <\/button><\/h2>\n<div id=\"collapse_14\" class=\"accordion-body\" name=\"MAGIC\" aria-labelledby=\"collapse_button_14\">\n<div class=\"accordion-inner clearfix\">\n<a id=\"MAGIC\"><\/a><\/p>\n<h2>MAGIC &#8211; The Mountain Glacier Forecast Framework<\/h2>\n<p>General glacier retreat around the globe has become iconic to illustrate the effects of global warming and we anticipate that this demise will continue and significantly add to global sea-level rise. Ice loss can also induce shifts in regional water resources, putting some places at high risk of year-around freshwater availability. Better projections of glacier retreat are therefore essential in terms of coastal impact, water management and hydro-glaciological risks. The overall aim of the project is to provide a framework to improve past and future glacier volume projections. The process-based framework will be based on the open-source ice-flow model Elmer\/Ice and will allow to reduce three potentially important sources of uncertainty. Anticipating the continuously growing body of information from satellite remote sensing, we will improve and develop robust data assimilation methods to infer the basal topography beneath the ice and calibrate ice-flow parameters for a better representation of the initial state and ice dynamics. The flow model will be coupled to an enhanced surface mass balance model that exhibits a stable melt relation over relevant multi-decadal timescales. Based on ensemble simulations, the framework will allow to better quantify the interaction and propagation of these uncertainties. As a proof of concept, the framework will be applied to hindcast and forecast glacier evolutions in the French Alps and in Cordillera Darwin (Chile). These sites have been chosen because for both glacier sites ice-flow is considered important and because of the availability of in-situ and remotely sensed observations. The two sites will further serve as challenging test setups to scrutinise the applicability, performance and robustness of the modelling framework under different climatic conditions and dynamic settings.<\/p>\n<p>&nbsp;<\/p>\n<p>Deutsche Forschungsgemeinschaft (DFG) &#8211; <a href=\"https:\/\/gepris.dfg.de\/gepris\/projekt\/431767937\" target=\"_blank\" rel=\"noopener noreferrer\">Project ID: 431767937<\/a><a href=\"http:\/\/www.dfg.de\/\" target=\"_blank\" rel=\"noopener noreferrer\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-19776 size-medium aligncenter noshadow\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DFG1-300x38-300x38.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-220x28.png 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-140x18.png 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-145x18.png 145w\" \/><\/a><br \/>\nPeriod: 2020-2023<br \/>\nProject staff: <a href=\"https:\/\/www.geographie.nat.fau.de\/person\/franziska-temme\/\">Franziska Temme<\/a>, <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/johannes-fuerst\/\">Johannes F\u00fcrst<\/a>, <a href=\"http:\/\/pp.ige-grenoble.fr\/annuaire\/annuaire-osug-ige\/gillet.htm\">Fabien Gillet-Chaulet<\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"STRG\" href=\"#collapse_15\" aria-expanded=\"false\" aria-controls=\"collapse_15\" id=\"collapse_button_15\"> STRG - Surface state of Tropical Glaciers - Polar 5 aerial survey <\/button><\/h2>\n<div id=\"collapse_15\" class=\"accordion-body\" name=\"STRG\" aria-labelledby=\"collapse_button_15\">\n<div class=\"accordion-inner clearfix\">\n<a id=\"MAGIC\"><\/a><\/p>\n<h2>STRG &#8211; Surface state of Tropical Glaciers &#8211; Polar 5 aerial survey<\/h2>\n<ul>\n<li>Precise topographic information of the pronounced topography of topical<br \/>\nglaciers is lacking, leading to limitations in ice modelling and mass balance<br \/>\ncomputations<\/li>\n<li>Glacier albedo is affected by the deposition of black carbon (e.g. due to bio mass burning<br \/>\nin the Amazon) on the glacier surface, leading to increased ice melt.<\/li>\n<li>Within the proposed flight campaign, high-resolution multispectral photogrammetric<br \/>\nimagery will be acquired in order to obtain topographic, spectral, albedo, and thermal<br \/>\nInformation on the glacier surfaces.<\/li>\n<\/ul>\n<p>Period: 2024-2025<br \/>\nProject staff: <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/thorsten-seehaus\/\">Thorsten Seehaus<\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"EVERLASTING\" href=\"#collapse_16\" aria-expanded=\"false\" aria-controls=\"collapse_16\" id=\"collapse_button_16\"> EVERLASTING - Detection of birds and marine mammals in aerial image sequences using artificial intelligence methods <\/button><\/h2>\n<div id=\"collapse_16\" class=\"accordion-body\" name=\"EVERLASTING\" aria-labelledby=\"collapse_button_16\">\n<div class=\"accordion-inner clearfix\">\n<a id=\"MAGIC\"><\/a><\/p>\n<h2>Detection of birds and marine mammals in aerial image sequences using artificial intelligence methods (EVERLASTING)<\/h2>\n<p>Project staff: <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/christian-sommer\/\">Christian Sommer<\/a>, <a href=\"https:\/\/lme.tf.fau.de\/person\/seuret\/\">Mathias Seuret<\/a>, <a href=\"https:\/\/www.geography.nat.fau.eu\/person\/matthias-braun\/\">Matthias Braun<\/a>, <a href=\"https:\/\/lme.tf.fau.de\/person\/christlein\/\">Vincent Christlein<\/a><\/p>\n<p>As a result of the current expansion of offshore facilities for the generation of renewable energy and shipping traffic, the assessment of impacts on marine ecosystems is becoming increasingly important. Precise knowledge of the spatial and temporal distribution of animal species is therefore essential for the conservation of biodiversity and the management of offshore wind farms and other economic activities. High-resolution optical images from the latest generation of airborne remote sensing sensors enable the observation of seabirds and marine mammals in large marine areas. However, identifying features on the ocean surface and separating animals from other objects such as wave structures, ships or buoys requires time-consuming visual inspection of the acquired image sequences by trained personnel. To overcome this limitation of previous assessments, the EVERLASTING project is a joint effort of the FAU Institute of Geography and the Pattern Recognition Lab (LME) to develop an AI-based approach to automatically detect and classify various features above the sea surface. As training data, we use an extensive database of optical images (~2.5 million images) with a spatial resolution of 2 cm, acquired by the German Federal Agency for Nature Conservation (BfN) during repeated monitoring flights in the German North Sea and Baltic Sea since 2018. These images are then pre-processed and geolocated with the respective supporting information to create a comprehensive test dataset of marine animal observations. Manual annotations (image labels) of features detected during visual inspection are available for a fraction of the total survey database and serve as AI training data. The AI method we are developing must be capable of both detecting birds in images and tracking instances of the same element in multiple images. Challenges include image quality (i.e. contrast &amp; brightness), feature size and motion. Often features (birds) appear in several successive overlapping images, making it difficult to estimate the number of animals detected. We aim to address these issues by incorporating cinematic estimation of the movement of the aircraft and animal, as well as estimation of the direction of the sun in each frame, into the tracking system. The outcomes of the project will be used by the German Federal Agency for Nature Conservation (BfN) to expand the monitoring of seabird and mammal populations and to evaluate the effectiveness of biodiversity conservation measures.<\/p>\n<p>&nbsp;<\/p>\n<p>Period: 2023-2026<\/p>\n<p>Funded by <img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-medium wp-image-46237\" src=\"https:\/\/www.geography.nat.fau.eu\/files\/2024\/05\/Logo-BfN-DE-2022-rgb-2048x873-1-300x128.jpg\" alt=\"\" \/><\/p>\n<\/div>\n<\/div>\n<\/div>\n<hr class=\"line\" \/>\n<p><strong>Completed Projects<\/strong><\/p>\n<p><div class=\"rrze-elements accordion style_default\" id=\"accordion-2\"><\/div>\n<\/p>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"DIARS\" href=\"#collapse_17\" aria-expanded=\"false\" aria-controls=\"collapse_17\" id=\"collapse_button_17\"> DIARS - Detection of invasive plant species and assessment of their impact on ecosystem properties through remote sensing <\/button><\/h2>\n<div id=\"collapse_17\" class=\"accordion-body\" name=\"DIARS\" aria-labelledby=\"collapse_button_17\">\n<div class=\"accordion-inner clearfix\">\n<h4>EU BiodivERsA, DFG FE 1331\/3-1<\/h4>\n<p>Funding period: 2014-2017<\/p>\n<p>Project team: <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/hannes-feilhauer\/\">Hannes Feilhauer<\/a>, <a title=\"Sandra Skowronek\" href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/sandra-skowronek\/\">Sandra Skowronek<\/a><\/p>\n<figure id=\"attachment_20104\" aria-describedby=\"caption-attachment-20104\" class=\"wp-caption alignright\"><a href=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/02\/DIARS_CI.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-20104 size-medium\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DIARS_CI-300x300.jpg\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DIARS_CI-300x300.jpg 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DIARS_CI-150x150.jpg 150w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DIARS_CI-768x768.jpg 768w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DIARS_CI-147x147.jpg 147w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DIARS_CI-110x110.jpg 110w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DIARS_CI-200x200.jpg 200w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DIARS_CI-470x470.jpg 470w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DIARS_CI-120x120.jpg 120w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DIARS_CI.jpg 800w\" \/><\/a><figcaption id=\"caption-attachment-20104\" class=\"wp-caption-text\">Invasive moss species Campylopus introflexus in the dunes of Sylt, Germany<\/figcaption><\/figure>\n<p>Biodiversity conservation includes the development of warning and rapid response systems for biological invasions and urges investigations of their impacts on ecosystem function and services. In this context, the systematic, objective, and synoptic view on Earth of remote sensing systems offers a great opportunity to target biological invasion and their impact across various spatial and temporal scales. Within DIARS we aim to<\/p>\n<p>1. characterize the ecosystem impact of invasive plant species through the combined use of field and remotely sensed data.<\/p>\n<p>2. support monitoring, prediction of spread and risk assessment of invasive plant species as preconditions for management measures and mitigation.<\/p>\n<p>For this purpose, we analyse and map the local distribution of the invasive species<em> Campylopus introflexus, Prunus serotina<\/em> and <em>Oxalis pes-caprae<\/em> and their impact on ecosystems in Germany and France.<\/p>\n<p>&nbsp;<\/p>\n<p>Project website: <a href=\"http:\/\/diars.vgt.vito.be\/content\/home\">DIARS<\/a><\/p>\n<p>&nbsp;<\/p>\n<p>Project partners:<\/p>\n<ul>\n<li>Carnegie Department of Global Ecology, Stanford, CA, USA<\/li>\n<li>Fondazione Edmund Mach, San Michele all&#8217;Adige, Italy<\/li>\n<li>KIT, Karlsruhe, Germany<\/li>\n<li>KU Leuven, Leuven, Belgium<\/li>\n<li>U de Picardie Jules Vernes, Amiens, France<\/li>\n<li>Vito, Mol, Belgium<\/li>\n<\/ul>\n<p>&nbsp;<\/p>\n<p>Gef\u00f6rdert durch die<a href=\"http:\/\/www.dfg.de\/\" target=\"_blank\" rel=\"noopener\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-19776 size-medium aligncenter noshadow\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DFG1-300x38-300x38.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-220x28.png 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-140x18.png 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-145x18.png 145w\" \/><\/a><a href=\"http:\/\/www.biodiversa.org\/\"><img loading=\"lazy\" decoding=\"async\" class=\"aligncenter wp-image-20097 size-medium\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/Biodiversa_Light-version_LOGO-300x86.jpg\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Biodiversa_Light-version_LOGO-300x86.jpg 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Biodiversa_Light-version_LOGO-220x63.jpg 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Biodiversa_Light-version_LOGO-140x40.jpg 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Biodiversa_Light-version_LOGO-145x42.jpg 145w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Biodiversa_Light-version_LOGO.jpg 595w\" \/><\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"CaTReS\" href=\"#collapse_18\" aria-expanded=\"false\" aria-controls=\"collapse_18\" id=\"collapse_button_18\"> CaTReS - Canopy traits in remote sensing of floristic and functional vegetation patterns, DFG-Normalverfahren FE 1331\/2-1  <\/button><\/h2>\n<div id=\"collapse_18\" class=\"accordion-body\" name=\"CaTReS\" aria-labelledby=\"collapse_button_18\">\n<div class=\"accordion-inner clearfix\">\n<h4>DFG FE 1331\/2-1<\/h4>\n<p>Funding period: 2013-2014<\/p>\n<p>Project team: <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/hannes-feilhauer\/\">Hannes Feilhauer<\/a><\/p>\n<figure id=\"attachment_20090\" aria-describedby=\"caption-attachment-20090\" class=\"wp-caption alignright\"><a href=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/02\/CaTReS.png\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-20090 size-medium\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/CaTReS-135x300.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/CaTReS-135x300.png 135w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/CaTReS-68x150.png 68w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/CaTReS-66x147.png 66w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/CaTReS-50x110.png 50w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/CaTReS-90x200.png 90w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/CaTReS-212x470.png 212w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/CaTReS-54x120.png 54w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/CaTReS.png 328w\" \/><\/a><figcaption id=\"caption-attachment-20090\" class=\"wp-caption-text\">AISA Dual data of the CaTReS study site (RGB &#8211; 734, 641, 549 nm)<\/figcaption><\/figure>\n<p>Maps of vegetation patterns such as spatial variation in floristic composition, plant traits and plant functional types are required in ecology, ecosystem modelling and nature conservation. One frequently applied approach to generate these maps relies on imaging spectroscopy. In this approach, statistical relationships between a vegetation sample and the corresponding canopy reflectance are quantified and subsequently applied onto the imagery.<\/p>\n<p>Although several successful examples of such applications exist, fundamental questions regarding the causal relations between vegetation patterns and canopy reflectance are still open. In particular the role of canopy optical traits remains poorly understood. Canopy optical traits determine the reflectance signal of vegetation and include canopy biochemistry, morphological and structural properties. CaTReS aims to test the qualitative and quantitative contribution of these traits to remote sensing of vegetation patterns in a test site in Southern Bavaria.<\/p>\n<p>&nbsp;<\/p>\n<p>Gef\u00f6rdert durch die<a href=\"http:\/\/www.dfg.de\/\" target=\"_blank\" rel=\"noopener\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-19776 size-medium aligncenter noshadow\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DFG1-300x38-300x38.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-220x28.png 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-140x18.png 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-145x18.png 145w\" \/><\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"DyStAP\" href=\"#collapse_19\" aria-expanded=\"false\" aria-controls=\"collapse_19\" id=\"collapse_button_19\"> DyStAP - Dynamic state of Wilkins and George VI ice shelves on the south-western Antarctic Peninsula <\/button><\/h2>\n<div id=\"collapse_19\" class=\"accordion-body\" name=\"DyStAP\" aria-labelledby=\"collapse_button_19\">\n<div class=\"accordion-inner clearfix\">\n<h4>DFG-Priority Programme 1158 Antarctic Research<\/h4>\n<p>BR2105\/8-1<\/p>\n<p>Funding period: 2009-2014 (completed)<\/p>\n<p><a href=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/02\/WIS.png\"><img loading=\"lazy\" decoding=\"async\" class=\"alignright wp-image-20092 size-medium\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/WIS-300x294.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/WIS-300x294.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/WIS-153x150.png 153w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/WIS-150x147.png 150w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/WIS-112x110.png 112w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/WIS-204x200.png 204w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/WIS-480x470.png 480w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/WIS-123x120.png 123w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/WIS.png 619w\" \/><\/a>This project aims to gain understanding of ongoing and potential changes of Wilkins and GeorgeVI ice shelves on the south-western Antarctic Peninsula. Both are located in an area of the supposed climatic limit of viability of ice shelves and have already shown considerable ice front retreat. The break-up events in 2008 and 2009 on Wilkins Ice Shelf exemplified their potential of disintegration.<\/p>\n<p>Within a multi-institutional, interdisciplinary approach including remote sensing (FAU Erlangen-N\u00fcrnberg), modeling of the ice dynamics (Alfred-Wegener-Institut) and fracture mechanics (TU Kaiserslautern), we aim to improve the understanding of the impacts of temperature increase on ice shelf stability.<\/p>\n<p>The remote sensing component includes the mapping of surface structures and fracture development over time, as well as the derivation of surface velocity fields by SAR interferometry and feature tracking for the Wilkins Ice Shelf, which are required as input datasets for modeling of fracture and ice dynamics. For this purpose, we use multi-temporal optical and SAR imagery (Alos Palsar, TerraSAR-X, ERS, ENVISAT). Further work tasks include the investigation of ice thickness changes based on altimetry data and the mapping of the grounding line using Differential SAR Interferometry. The observed quantities are interpreted in the context of ice dynamics and fracture mechanics.<\/p>\n<h5>Project team<\/h5>\n<p><a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/matthias-braun\/\">Matthias Braun<\/a>, <a title=\"Melanie Rankl\" href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/melanie-rankl\/\">Melanie Rankl<\/a><\/p>\n<p><a href=\"http:\/\/www.spp-antarktisforschung.de\/\"><img loading=\"lazy\" decoding=\"async\" class=\"aligncenter wp-image-20095 size-medium noshadow\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DFG_SPP_logo-300x55.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo-300x55.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo-768x140.png 768w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo-220x40.png 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo-140x26.png 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo-145x27.png 145w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo.png 870w\" \/><\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"BayIntAn\" href=\"#collapse_20\" aria-expanded=\"false\" aria-controls=\"collapse_20\" id=\"collapse_button_20\"> BayIntAn <\/button><\/h2>\n<div id=\"collapse_20\" class=\"accordion-body\" name=\"BayIntAn\" aria-labelledby=\"collapse_button_20\">\n<div class=\"accordion-inner clearfix\">\n<h4>BayIntAn &#8211; Reconstruction of climate at Glaciar Perito Moreno<\/h4>\n<p>Funding period: 2014<\/p>\n<p>Klimarekonstruktion am Perito Moreno Gletscher in Patagonien auf Basis von dendro-\u00f6kologischen Untersuchungen, meteorologischen Messungen und Fernerkundung<br \/>\nDie Messung verschiedener dendro\u00f6kologischer Parameter wie Jahrringbreiten, Holzdichte und die Analyse der zeitlichen Variabilit\u00e4t der stabilen Isotope erm\u00f6glicht es R\u00fcckschl\u00fcsse auf vergangene Klimabedingungen zu ziehen, bevor irgendwelche Klimamessungen in der Region gemacht wurden (wir erwarten Aufzeichnungsl\u00e4ngen von etwa 200 Jahren). Die dendrochronologischen Zeitreihen werden mit meteorologischen Daten einer automatischen Wetterstation am S\u00fcdrand des Glaciar Perito Moreno kalibriert, die seit fast zwei Jahrzehnten kontinuierlich aufzeichnet. Dies erm\u00f6glicht es, eine Beziehung zwischen den in Baumringen gespeicherten Umweltvariablen und dem lokalen Klima herzustellen. Das ermittelte Klimasignal wird mit dem Gletscherverhalten und der Sensibilit\u00e4t des Gletschers gegen\u00fcber klimatischen Ver\u00e4nderungen verkn\u00fcpft.<br \/>\nDer Perito Moreno ist der einzige Gletscher im Nationalpark Los Glaciares mit fast 2 Jahrzehnten ununterbrochenen meteorologischen Messdaten und einer einzigartigen Lage, um die Jahrringmessungen mit in-situ meteorologischen Beobachtungen zu kalibrieren. Die Baumarten der Gattung Nothofagus oberhalb der rezenten Lateralmor\u00e4ne garantieren eine sehr starke Verbindung zwischen lokalem Klima und den Baumring Informationen sowie eine lange zeitliche Aufzeichnung. Anschlie\u00dfend an den Standort am Perito Moreno wird entlang des klimatischen Transekts, von feuchteren in trockenere Bedingungen, beprobt &#8211; die Standorte innerhalb des Nationalparks repr\u00e4sentieren feuchte Bedingungen, w\u00e4hrend die Standorte au\u00dferhalb des Parks (nach Osten) trockenere Bedingungen aufweisen.<\/p>\n<p>&nbsp;<\/p>\n<p>In Kooperation mit Pedro Skvarca, <a href=\"http:\/\/glaciarium.com\/en\/\" target=\"_blank\" rel=\"noopener\">Glaciarium<\/a>, El Calafate, Argentinien).<\/p>\n<p>&nbsp;<\/p>\n<p>Anschubfinanzierung des Bayerischen F\u00f6rderprogramms zur Anbahnung internationaler Forschungskooperationen (BayIntAn), 2014.<\/p>\n<p>&nbsp;<\/p>\n<p>Gef\u00f6rdert durch:<br \/>\n<a href=\"http:\/\/www.baylat.org\/start.html\" target=\"_blank\" rel=\"noopener\">BAYLAT<\/a> (Bayerische Hochschulzentrum f\u00fcr Lateinamerika)<br \/>\n<a href=\"http:\/\/www.bayfor.org\/index_de.php\" target=\"_blank\" rel=\"noopener\">BayFor<\/a> (Bayerische Forschungsallianz)<br \/>\n<a href=\"http:\/\/www.bayfor.org\/bayintan\" target=\"_blank\" rel=\"noopener\">BayIntAn<\/a> (Bayerisches F\u00f6rderprogramm zur Anbahnung internationaler Forschungskooperationen)<\/p>\n<p>&nbsp;<\/p>\n<p><strong>Projektbeteiligte\/ Project team<\/strong><\/p>\n<p><a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/bjoern-sass\/\">Bj\u00f6rn Sa\u00df<\/a>, <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/jussi-griessinger\/\">Jussi Grie\u00dfinger<\/a>, <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/matthias-braun\/\">Matthias Braun<\/a><\/p>\n<p>&nbsp;<\/p>\n<p><a href=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"alignright wp-image-20093 size-large\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie-1024x576.jpg\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie-1024x576.jpg 1024w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie-300x169.jpg 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie-768x432.jpg 768w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie-267x150.jpg 267w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie-220x124.jpg 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie-195x110.jpg 195w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie-140x79.jpg 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie-835x470.jpg 835w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie-145x82.jpg 145w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/Blick-auf-Gletscherfront-Perito-Moreno-undBrazo-Rico-Kopie.jpg 1500w\" \/><\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"IMCONet\" href=\"#collapse_21\" aria-expanded=\"false\" aria-controls=\"collapse_21\" id=\"collapse_button_21\"> IMCONet - Interdisciplinary Modelling of Climate Change in Coastal Western Antarctica \u2013 Network of Staff Exchange and Training  <\/button><\/h2>\n<div id=\"collapse_21\" class=\"accordion-body\" name=\"IMCONet\" aria-labelledby=\"collapse_button_21\">\n<div class=\"accordion-inner clearfix\">\n<p class=\"bodytext\"><strong>EU FP7 IRSES<\/strong><\/p>\n<p class=\"bodytext\">Funding period 2012-2016<\/p>\n<p class=\"bodytext\"><b><\/b><span lang=\"EN-GB\">IMCONet is an international Research Network that follows an interdisciplinary approach to understand the consequences of Climate Change in coastal Western Antarctica. A<i> Network for Staff Exchange and Training<\/i>, IMCONet is funded by the Marie Curie Action IRSES (International Research Staff Exchange Scheme) of the <i>7th Framework Programme of the European Union<\/i>. The activity brings European, South American and US scientists together to advance climate and (eco-) system change research at the Western Antarctic Peninsula (WAP), a region of recent rapid aerial warming.<\/span><\/p>\n<p class=\"bodytext\">IMCONet objectives are<\/p>\n<div class=\"row-fluid\">\n<div class=\"span12\">\n<div id=\"c101\" class=\"csc-default\">\n<ul type=\"disc\">\n<li><span lang=\"EN-US\">to develop predictive climate change and ecosystem models for the whole WAP coastal environment based on existing data sets and data exchange policies;<\/span><\/li>\n<li><span lang=\"EN-US\">transfer of knowledge between partner countries to enhance collaboration with high quality long-term measuring programs at all 3 stations, to fill present measuring gaps.<\/span><\/li>\n<\/ul>\n<p class=\"bodytext\"><span lang=\"EN-GB\">IMCONet is the follow-up of the ESF PolarCLIMATE activity<a title=\"Opens external link in new window\" href=\"http:\/\/www.imcoast.org\/\" target=\"_blank\" rel=\"noopener\"> IMCOAST<\/a>, an international research activity that investigated climate change and glacier melting effects on coastal ecosystems at Potter Cove and in Admiralty Bay on King-George Island (Isla 25 de Mayo) in the northern WAP region. Data were generated for different ecosystem compartments (glaciers, coastal run-off and sediment biogeochemistry, pelagic and benthic coastal systems) by interdisciplinary multi-national teams collaborating mainly on-site<b>.<\/b><\/span><\/p>\n<p class=\"bodytext\">The consortium is coordinated by AWI Bremerhaven; within the project FAU coordinates the WP1 on glacier mass balance.<\/p>\n<p class=\"bodytext\">Project team:<\/p>\n<p class=\"bodytext\"><a title=\"Matthias Braun\" href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/matthias-braun\/\">Matthias Braun<\/a> (FAU), <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/thorsten-seehaus\/\">Thorsten Seehaus<\/a> (FAU), Juliana Costi (FURG\/FAU), Ulrike Falk (Uni BN), Jorge Arigony-Neto (FURG), Hernan Sala (IAA), Sebastian Marinsek (IAA), Adrian Silva Busso (IAA)<\/p>\n<p class=\"bodytext\">\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"VELMAP\" href=\"#collapse_22\" aria-expanded=\"false\" aria-controls=\"collapse_22\" id=\"collapse_button_22\"> VELMAP - Velocities, elevation and mass changes of Antarctic Peninsula Glaciers <\/button><\/h2>\n<div id=\"collapse_22\" class=\"accordion-body\" name=\"VELMAP\" aria-labelledby=\"collapse_button_22\">\n<div class=\"accordion-inner clearfix\">\n<h4>DFG-Priority Programme 1158 Antarctic Research<\/h4>\n<p>BR 2105\/9-1<\/p>\n<p>Funding period: 2012-2015<\/p>\n<p>Climate conditions along the Antarctic Peninsula have considerably changed in the last 50 years. The glaciers on the Western Antarctic Peninsula have already shown reactions of change by speed-up and surface lowering. The disintegration of the Larsen-A and B Ice Shelves, the ice shelves in the Larsen Inlet, Prinz-Gustav-Channel and Wordie Ice Shelf have led to a surge-type behaviour of tributary glaciers to which much of the current contribution of Antarctic Peninsula ice to sea level rise is attributed. However, quantifications of mass loss from the peninsula using different observations and methods are still ambiguous.<\/p>\n<p><a href=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/02\/DBE-Retreat-Vel-dfg14.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"alignright wp-image-20103 size-medium\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DBE-Retreat-Vel-dfg14-269x300.jpg\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DBE-Retreat-Vel-dfg14-269x300.jpg 269w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DBE-Retreat-Vel-dfg14-768x857.jpg 768w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DBE-Retreat-Vel-dfg14-918x1024.jpg 918w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DBE-Retreat-Vel-dfg14-134x150.jpg 134w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DBE-Retreat-Vel-dfg14-132x147.jpg 132w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DBE-Retreat-Vel-dfg14-99x110.jpg 99w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DBE-Retreat-Vel-dfg14-179x200.jpg 179w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DBE-Retreat-Vel-dfg14-421x470.jpg 421w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DBE-Retreat-Vel-dfg14-108x120.jpg 108w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DBE-Retreat-Vel-dfg14.jpg 1200w\" \/><\/a><\/p>\n<p>The aim of our project is on to improve the quantifications of mass loss in the area of the former Northern Larsen-A embayment as well as for Western Antarctic Peninsula glaciers. In order to achieve those goals we analyse time series of satellite data from ERS 1\/2, Envisat, Radarsat 1, ALOS PALSAR, TanDEM-X &amp; TerraSAR-X and Rapideye to determine glacier velocity changes for these regions over the last 20 years. Furthermore we generate digital elevation models from TanDEM-X mission data in order to calculate surface elevation changes. Our products are backed up with GNSS ground truth measurements from joint German-Argentine (<a href=\"http:\/\/www.dna.gov.ar\/INGLES\/INDEX.HTM\" target=\"_blank\" rel=\"noopener\">DNA_IAA<\/a>)\u00a0 field campaigns\u00a0 and laser altimetry done by collaborating partners (<a href=\"http:\/\/www.awi.de\" target=\"_blank\" rel=\"noopener\">Alfred Wegener Institut<\/a>, Bremerhaven). In an integrated analysis those data sets are linked to achieve a better glaciological understanding of underlying processes and to estimate the ice mass loss at the study region.<\/p>\n<h5><a href=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/02\/IMG_8494.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"alignright size-medium wp-image-20089\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/IMG_8494-300x200.jpg\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/IMG_8494-300x200.jpg 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/IMG_8494-768x512.jpg 768w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/IMG_8494-1024x683.jpg 1024w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/IMG_8494-225x150.jpg 225w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/IMG_8494-220x147.jpg 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/IMG_8494-165x110.jpg 165w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/IMG_8494-140x93.jpg 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/IMG_8494-705x470.jpg 705w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/IMG_8494-120x80.jpg 120w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/IMG_8494-145x97.jpg 145w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/IMG_8494.jpg 1200w\" \/><\/a><\/h5>\n<h5>Project team<\/h5>\n<p><a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/matthias-braun\/\">Matthias Braun<\/a>, <a title=\"Thorsten Seehaus\" href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/thorsten-seehaus\/\">Thorsten Seehaus<\/a><\/p>\n<p><a href=\"http:\/\/www.dna.gov.ar\/INGLES\/INDEX.HTM\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-thumbnail wp-image-20094 noshadow\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DNA-logo-weis-150x150.png\" alt=\"\" \/><\/a><br \/>\n<a href=\"http:\/\/www.awi.de\/\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-20100 noshadow\" src=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/02\/awi_logo.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/awi_logo.png 378w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/awi_logo-300x137.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/awi_logo-220x101.png 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/awi_logo-140x64.png 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/awi_logo-145x66.png 145w\" \/><\/a><a href=\"http:\/\/www.spp-antarktisforschung.de\/\"><img loading=\"lazy\" decoding=\"async\" class=\"size-medium wp-image-20095 alignright noshadow\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DFG_SPP_logo-300x55.png noshadow\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo-300x55.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo-768x140.png 768w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo-220x40.png 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo-140x26.png 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo-145x27.png 145w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG_SPP_logo.png 870w\" \/><\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"TanDEM-Ice\" href=\"#collapse_23\" aria-expanded=\"false\" aria-controls=\"collapse_23\" id=\"collapse_button_23\"> TanDEM-Ice <\/button><\/h2>\n<div id=\"collapse_23\" class=\"accordion-body\" name=\"TanDEM-Ice\" aria-labelledby=\"collapse_button_23\">\n<div class=\"accordion-inner clearfix\">\n<h2>Gletschermonitoring in Hochasien mittels TanDEM-X InSAR und weiterer Erdbeoachtungssensorik<\/h2>\n<p><strong>Projektteam: <\/strong><a title=\"Matthias Braun\" href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/matthias-braun\/\">Matthias Braun<\/a>, <a title=\"Melanie Rankl\" href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/melanie-rankl\/\">Melanie Rankl<\/a>,<a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/philipp-malz\/\"> Philipp Malz<\/a><\/p>\n<p><strong>Projektlaufzeit<\/strong>: 2015-2017<\/p>\n<p>\u00dcbergeordnetes Projektziel ist eine Eignungsanalyse von Daten der TanDEM-X Science Phase sowie die Entwicklung einer Prozessierungskette zur Ableitung geod\u00e4tischer Massenbilanzen. Zudem sollen \u00c4nderungen der Dynamik und\u00a0 Ausdehnung der Gletscher Hochasiens auf verschiedenen zeitlichen und r\u00e4umlichen Skalen erfasst werden. Das zu entwickelnde Produkt ist ein validiertes \u201eMethodeninstrumentarium zur Gletscherbeobachtung\u201c, das nicht nur in Hochasien,\u00a0 sondern auch in anderen Gebirgsregionen zur Beobachtung der dem globalen Klimawandel unterliegenden Gletscher eingesetzt werden kann. Die Innovation liegt in der Bewertung des Potenzials der experimentellen Aufnahmemodi der TanDEM-X Science Phase f\u00fcr die glaziologische Fernerkundung in Bezug zur bisherigen Aufnahmekonfiguration sowie in der Kombination mit glaziologischen Produkten basierend auf Daten verschiedenster Satellitenmissionen. Das\u00a0 interferometrische Potenzial der Mission und dessen Eignung f\u00fcr steile Hochgebirgstopographien soll systematisch analysiert und Empfehlungen f\u00fcr die weitere Missionsplanung gegeben werden. Am Projektende soll eine verbesserte regionale Aussage zu den Massen\u00e4nderungen der Gletscher in Hochasien stehen, die z.B. in internationale Berichte wie den IPCC AR6 einflie\u00dfen kann.<\/p>\n<p><strong>Projektpartner<\/strong>: Prof. Dr. Volker Hochschild, Eberhard-Karls Universit\u00e4t T\u00fcbingen<\/p>\n<p>&nbsp;<\/p>\n<p>gef\u00f6rdert durch:<\/p>\n<p><a href=\"http:\/\/www.dlr.de\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone noshadow\" src=\"http:\/\/www.pa.op.dlr.de\/aeolus\/graphics\/dlr_logo_big.jpg\" alt=\"\" \/><\/a> \u00a0 \u00a0 \u00a0 \u00a0 <a href=\"http:\/\/www.bmwi.de\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone noshadow\" src=\"http:\/\/www.waermepumpe.de\/uploads\/pics\/BMWi_Logo_1.024x509.jpg\" alt=\"\" \/><\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"HGF-EDA\" href=\"#collapse_24\" aria-expanded=\"false\" aria-controls=\"collapse_24\" id=\"collapse_button_24\"> HGF-EDA - Remote Sensing and Earth System Dynamics <\/button><\/h2>\n<div id=\"collapse_24\" class=\"accordion-body\" name=\"HGF-EDA\" aria-labelledby=\"collapse_button_24\">\n<div class=\"accordion-inner clearfix\">\n<h4>HGF Alliance<\/h4>\n<p>Funding period: 2012-2017<\/p>\n<p>The HGF Alliance \u201cRemote Sensing and Earth System Dynamics\u201d\u00a0(EDA)\u00a0aims at the development and evaluation of novel bio\/geo-physical information products derived from data acquired by a new generation of remote sensing satellites; and their integration in Earth system models for improving understanding and modelling ability of global environmental processes and ecosystem change.<\/p>\n<p>The key objective of the proposed Alliance is to prepare the HGF centers and the national\/international science community for the utilisation and integration of bio\/geo-physical products provided by the next generation radar remote sensing missions (e.g. Tandem-L) into the study of natural and anthropogenic impact on Earth\u2019s ecosystems by:<\/p>\n<ul>\n<li>\n<div>developing new bio\/geo-physical information products from remote sensing data;<\/div>\n<\/li>\n<li>\n<div>integrating the new products into Earth system models;<\/div>\n<\/li>\n<li>\n<div>improving the understanding and modelling of dynamic processes;<\/div>\n<\/li>\n<li>\n<div>providing a unique forum for the education of a new generation of scientists.<\/div>\n<\/li>\n<\/ul>\n<p>Our working group forms part of the cryosphere workpackage of the HGF Alliance. We analyse SAR data in regard to changes in ice dynamics, volume and mass changes as well as glacier extent using SAR coherence. Our aim is to contribute to an improved system understanding merging the information terieved from earth observation with other data sources. For this purpose we develop algorithms based on data set from ALOS PALSAR and TerraSAR-X\/TanDEM-X that provide respective products.<\/p>\n<p>&nbsp;<\/p>\n<p><strong>Project team<\/strong><\/p>\n<p>Saurabh Vijay, <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/melanie-rankl\/\">Melanie Rankl<\/a>, <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/thorsten-seehaus\/\">Thorsten Seehaus<\/a>, <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/matthias-braun\/\">Matthias Braun<\/a><\/p>\n<p>&nbsp;<\/p>\n<p>Full <a href=\"http:\/\/hgf-eda.de\">HGF-EDA Website<\/a><\/p>\n<p><a href=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/02\/velocity_columbia1.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-medium wp-image-6284\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/velocity_columbia1-300x300.jpg\" alt=\"velocity_columbia\" \/><\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"DLR-DFD\" href=\"#collapse_25\" aria-expanded=\"false\" aria-controls=\"collapse_25\" id=\"collapse_button_25\"> DLR-Nachwuchsforschergruppe am DFD (GARS O'Higgins), Reprocessing ERS-1\/2 Archive of GARS for glaciological products along the AP <\/button><\/h2>\n<div id=\"collapse_25\" class=\"accordion-body\" name=\"DLR-DFD\" aria-labelledby=\"collapse_button_25\">\n<div class=\"accordion-inner clearfix\">\nThe working group of Matthias Braun contributes to the HGF Nachwuchsforschergruppe of Dr. Kathrin H\u00f6ppner at DLR DFD by supervising a MSc and PhD student. The aim of the PhD project is to derive quantitative glaciological variables from large-scale processing of the entire ERS-1\/2 archive over the Antarctic Peninsula stored at DLR. The ERS archive was acquired between 1991 and 2011 during various acquisition campaigns at the German Antarctic Receiving Station (GARS) near the Chilean base O&#8217;Higgins. The working group at FAU provides its knwoeldge and expertise on SAR processing as well as algorithms where required.<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"VHB\" href=\"#collapse_26\" aria-expanded=\"false\" aria-controls=\"collapse_26\" id=\"collapse_button_26\"> VHB Onlinekurs GIS-Lehramt <\/button><\/h2>\n<div id=\"collapse_26\" class=\"accordion-body\" name=\"VHB\" aria-labelledby=\"collapse_button_26\">\n<div class=\"accordion-inner clearfix\">\nDevelopment of an Online Course Geoinformation and Remote Sensing for Magisterial Students (VHB)<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"INPLANT\" href=\"#collapse_27\" aria-expanded=\"false\" aria-controls=\"collapse_27\" id=\"collapse_button_27\"> INPLANT <\/button><\/h2>\n<div id=\"collapse_27\" class=\"accordion-body\" name=\"INPLANT\" aria-labelledby=\"collapse_button_27\">\n<div class=\"accordion-inner clearfix\">\n<p class=\"western\" align=\"JUSTIFY\"><strong>belspo<\/strong><\/p>\n<p class=\"western\" align=\"JUSTIFY\">Funding period: 2016-2018<\/p>\n<p class=\"western\" align=\"JUSTIFY\">Project team: <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/hannes-feilhauer\/\">Hannes Feilhauer<\/a>, <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/sandra-skowronek\/\">Sandra Skowronek<\/a>, and\u00a0<a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/iris-unberath\/\" target=\"_blank\" rel=\"noopener\">Iris Unberath<\/a><\/p>\n<p class=\"western\" align=\"JUSTIFY\">Species invasions are among the most important threats to the functioning of the Earth\u2019s ecosystems. Invasion biologists have mainly focused so far on the effects that invasive plant species have on native populations and communities. The response of ecosystem functioning to invasion has received considerably less attention. In INPLANT we explore the capability of imaging spectroscopy data to define optically distinguishable functional types (\u2018optical types\u2019) as a means to quantify the effects of invasive plants on ecosystem functioning. Spectroscopy data allow to characterize the canopy biochemistry, as such allowing a discrimination between subtle physiological differences among plant species, and enable a straightforward link to ecosystem processes. The optical types are expected to outperform, or at least complement, conventional functional trait approaches when predicting changes in ecosystem functioning through plant invasion. The principal idea behind INPLANT is that invasive plant species may have physical-chemical properties that differ from native species. These physical-chemical properties can be directly linked to ecosystem functioning changes following invasions, and they can be largely quantified based on the optical reflectance spectra of the species, which are detectable due to recent developments in remote sensing technology.<\/p>\n<p class=\"western\" align=\"JUSTIFY\">Project partners: KU Leuven, Leuven, Belgium<\/p>\n<p align=\"JUSTIFY\"><\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_28\" aria-expanded=\"false\" aria-controls=\"collapse_28\" id=\"collapse_button_28\"> COSIMA-FecMo - an integrated firn elevation change model for glaciers and ice caps <\/button><\/h2>\n<div id=\"collapse_28\" class=\"accordion-body\" aria-labelledby=\"collapse_button_28\">\n<div class=\"accordion-inner clearfix\">\n<p>Funding period: 2015 &#8211; 2017 (resp.)<\/p>\n<p>This project devotes itself to the question, what is the change in height by the densification of firn.<\/p>\n<p>The test area is the Vestfonna Ice Cap (VIC) on the island Nordaustlandet in the north east of Svalbard. The VIC is ~2400 km\u00b2 in size and has a dome like shape with well defined outlet glaciers. Further test sites with a magnificent in situ measurement archive are welcome.<\/p>\n<p>The propulsion are inaccuracies introduced during the conversion between measured volume change into glacier mass changes. Until now, we calculated glacier mass balances with a constant conversion factor of 850 kg m<sup>-3<\/sup> or the density of ice (917 kg m<sup>-3<\/sup>) for entire glacier basins, altitude dependent density variations and firn layer thickness were unnoticed this way. Or we used constant densities for the ablation (900 kg m<sup>-3<\/sup>) and accumulation (600 kg m<sup>-3<\/sup>) areas, whereby not homogeneous density variations with varying climate conditions were not considered. A decline of the accuracy in the amount of mass change is the consequence. This inaccuracy is a systematic component of uncertainty in geodetically determined mass balances, and thus need to be addressed for accuracy improvement.<br \/>\nThe aim is to develop a firn elevation change model (FecMo) Surface Energy Balance (SEB) parameters (e.g. radiation, temperature, wind speed, precipitation, cloud cover fraction). At the moment the model is based on the COupled Snowpack and Ice surface energy and MAss balance glacier model (COSIMA) developed by Huintjes et al. (2015) (<a href=\"https:\/\/bitbucket.org\/glaciermodel\/\">link to the open access Git repository<\/a>). Latter model consists of a SEB model and an integrated subsurface model. Beside the surface energy component, the model has a discrete layer based subsurface structure.<\/p>\n<p>To remove access restrictions by proprietary software, COSIMA-FecMo is developed in the programming language Python. Simple configuration and site specific initialization options will be implemented, additionally it will be possible to replace entire Py-modules (e.g. precipitation, albedo, densification) if more accurate modules are available. The python model will be offered to the scientific community.<\/p>\n<p>FecMo will be forced by climate reanalysis data (e.g. Mod\u00e8le Atmosph\u00e9rique R\u00e9gional (MAR), ERA-interim data from the <a href=\"http:\/\/www.ecmwf.int\/\">ECMWF<\/a>). The forcing will be validated by a AWS network on and around the ice cap. One part of AWS data was recorded during the International Polar Year Project Kinnvika (IPY Kinnvika) between 2007 and 2010, another part is free of charge from the <a href=\"http:\/\/met.no\/English\/\">MET Norway<\/a> (eKlima) and the <a href=\"http:\/\/www.unis.no\/\">UNIS<\/a>. FecMo will be calibrated by in situ measurements from the IPY Kinnvika on mass balance components (ablation, snow package character, firn properties).<\/p>\n<p>The project combines remote sensing data (TanDEM-X, ICESat, CryoSat-2, Sentinel-1A, Aster) and methods (DInSAR, geodetic approach), climate data reanalysis and downscaling (MAR\/ERA-Interim) and the extensive analysis of the IPY Kinnvika archive (GPR, snow pit, stake and AWS measurements, GPS and DGPS profiles).<\/p>\n<p>At the end of our study, we will be able to derive layer based firn densities and to estimate firn densification on glaciers and ice caps to retrieve the amount of elevation change that is attributed to compaction.<\/p>\n<p>Project members: <a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/bjoern-sass\/\">Bj\u00f6rn Sa\u00df<\/a><\/p>\n<p>Bibliography:<\/p>\n<p>Huintjes E, Sauter T, Schr\u00f6ter B, et al (2015) Evaluation of a Coupled Snow and Energy Balance Model for Zhadang Glacier, Tibetan Plateau, Using Glaciological Measurements and Time-Lapse Photography. Arct Antarct Alp Res 47:573\u2013590. doi: 10.1657\/AAAR0014-073<\/p>\n<p>This work is funded by the <a href=\"https:\/\/www.dbu.de\/2599.html\">German Environmental Foundation Scholarship Program<\/a> (Deutsche Bundesstiftung Umwelt, DBU).<\/p>\n<p><a href=\"https:\/\/www.dbu.de\/\"><img loading=\"lazy\" decoding=\"async\" class=\"alignleft wp-image-10347 size-thumbnail\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DBU_Logo_en-150x150.jpg\" alt=\"DBU_Logo_en\" \/><\/a><\/p>\n<p>&nbsp;<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"KLIGAND\" href=\"#collapse_29\" aria-expanded=\"false\" aria-controls=\"collapse_29\" id=\"collapse_button_29\"> KLIGAND <\/button><\/h2>\n<div id=\"collapse_29\" class=\"accordion-body\" name=\"KLIGAND\" aria-labelledby=\"collapse_button_29\">\n<div class=\"accordion-inner clearfix\">\nClimate reconstruction, ice dynamics and geodetic glacier mass balances in the southern Andes (2015-2018, BMBF-WTZ, FKZ 01DN15020)<br \/>\nSubproject in dt-chil. Verbund GABY-VASA: Responses of Glaciers, Biosphere and Hydrology to Climate Change and Climate change across the Southern Andes\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"SVALbard-Bedrock\" href=\"#collapse_30\" aria-expanded=\"false\" aria-controls=\"collapse_30\" id=\"collapse_button_30\"> SVALbard-Bedrock <\/button><\/h2>\n<div id=\"collapse_30\" class=\"accordion-body\" name=\"SVALbard-Bedrock\" aria-labelledby=\"collapse_button_30\">\n<div class=\"accordion-inner clearfix\">\n<p><strong>Modelling present glacier dynamics on Svalbard &#8211; from inferring surface velocities to computing a flow-consistent bedrock map <\/strong><\/p>\n<p>Global surface temperatures have risen by ~0.7\u00b0C over the previous century. Due to an inherent amplification of climatic changes in high latitudes, warming has been more expressed in Polar Regions. One eminent consequence is the general retreat of Svalbard glaciers observed throughout the last century. In the last decades, southern Svalbard glaciers have even moved on to thin at dramatically increasing rates. This latest thinning trend is however not confirmed throughout the Arctic. The reason relies in the unique climatic conditions on Svalbard. <a href=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography.png\"><img loading=\"lazy\" decoding=\"async\" class=\"alignright size-medium wp-image-20102\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography-270x300.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography-270x300.png 270w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography-768x854.png 768w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography-921x1024.png 921w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography-135x150.png 135w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography-132x147.png 132w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography-99x110.png 99w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography-180x200.png 180w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography-423x470.png 423w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography-108x120.png 108w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/svalbard_thickness_map_UTM33_bedtopography.png 1200w\" \/><\/a>Since warm ocean currents in the North Atlantic reach the southern tip of the archipelago, the climate is rather warm and variable for its latitudinal band. Evolution of Svalbard glaciers has therefore often been suggested to play a precursor role for the other Arctic regions.Within the Arctic, Svalbard is unique in another respect, as glacier extents and elevation changes are well characterised over several decades. However, the interpretation of these geometric changes in terms of the climatic evolution is inhibited, as they arise from both the climatic surface mass balance and from ice flow divergence. The latter depends on glacier geometry and dynamics, and is not necessarily directly controlled by changes in climatological parameters. Yet, observations on glacier thicknesses and velocities are sparse and temporally incoherent, which impedes to this day a reliable quantification of the dynamic control on Svalbard glacier changes. By extension, we have only a vague idea on how much volume is annually discharged by iceberg calving at the marine ice fronts. Ice discharge presumably explains a large portion in the total mass budget, as more than half of the ice-covered area drains through marine-terminated glaciers.The aim of the research proposal is to expand the knowledge on the ice dynamic component of glacier evolution to the entire Svalbard archipelago. To this end, surface velocities are inferred from satellite remote sensing, which, in turn, serve to reconstruct the bedrock topography beneath all ice-covered areas. The reconstruction makes use of the mass conservation principle, provides therefore a flow-consistent thickness map and is already implemented in our ice flow model. Information on both ice velocities and ice thickness are a prerequisite to quantify the ice flow divergence that explains a, to this day, largely unknown portion of glacier changes. The reconstruction will therefore make it possible to better interpret recent geometric changes in the light of the observed atmospheric warming in the Arctic. Moreover, previous extrapolations for archipelago-wide estimates of ice volume and discharge can be improved on a physical basis. As the bedrock reconstruction is consistent with the observed ice flow, the map will facilitate the application of ice flow models on Svalbard. With our flow model, we aim at inferring the contribution of basal sliding to present glacier flow.<\/p>\n<p>&nbsp;<\/p>\n<p>Deutsche Forschungsgemeinschaft (DFG) &#8211; <a href=\"http:\/\/gepris.dfg.de\/gepris\/projekt\/274939856\" target=\"_blank\" rel=\"noopener\">Projektnummer 274939856<\/a><a href=\"http:\/\/www.dfg.de\/\" target=\"_blank\" rel=\"noopener\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-19776 size-medium aligncenter noshadow\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DFG1-300x38-300x38.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-220x28.png 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-140x18.png 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-145x18.png 145w\" \/><\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"GEKKO\" href=\"#collapse_31\" aria-expanded=\"false\" aria-controls=\"collapse_31\" id=\"collapse_button_31\"> GEKKO <\/button><\/h2>\n<div id=\"collapse_31\" class=\"accordion-body\" name=\"GEKKO\" aria-labelledby=\"collapse_button_31\">\n<div class=\"accordion-inner clearfix\">\n<h2 align=\"CENTER\"><u><b>Remote Sensing of Mountain Glaciers<\/b><\/u><\/h2>\n<p align=\"CENTER\"><b>Assessment of essential climate variables to support international initiatives<br \/>\n&#8211; Development and refinement of methods, exemplarily applied in the tropical Andes <\/b><b><br \/>\n<\/b><i><b>Methodenentwicklung und -verfeinerungen mit<\/b><\/i><\/p>\n<p align=\"CENTER\"><i><b><br \/>\n<\/b><\/i>GEKKO <b>G<\/b>ebirgsgletscher <b>E<\/b>ssentielle <b>K<\/b>limavariablen der <b>K<\/b>ry<b>O<\/b>sphere<\/p>\n<p>The glaciers of the tropical Andes represent an important water resource, but they are strongly affected by climate change. The regional water supply depends on the melt water and consequently on the mass balance of the glaciers. The goal of this project is to quantify glacier changes in the tropical Andes by analyzing different remote sensing data sets (SAR, optical imagery). Various glaciological variables (e.g., glacier extend, surface type, equilibrium line altitude, surface velocity) and their changes are going to be determined. Geodetic glacier mass balance is going to be derived from TanDEM-X and SRTM elevation models. New and upcoming Sensors like Sentinel-1&amp;2 will be integrated in the analysis to estimate their capabilities for glacier monitoring. The results will provide essential information of the current state and ongoing changes of glaciers in the tropical Andes. An additional outcome is going to be a refined monitoring system for mountain glaciers.<\/p>\n<h5>Project team<\/h5>\n<p><a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/matthias-braun\/\">Matthias Braun<\/a>, <a title=\"Thorsten Seehaus\" href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/person\/thorsten-seehaus\/\">Thorsten Seehaus<\/a><\/p>\n<p>&nbsp;<\/p>\n<p><a href=\"https:\/\/sentinel.esa.int\/\"><img loading=\"lazy\" decoding=\"async\" class=\"size-medium wp-image-20111 aligncenter\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/sentinel-300x175.jpg\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/sentinel.jpg 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/sentinel-257x150.jpg 257w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/sentinel-220x128.jpg 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/sentinel-189x110.jpg 189w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/sentinel-140x82.jpg 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/sentinel-145x85.jpg 145w\" \/><\/a><a href=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/cordillera-blanca-peru.jpg\"><img loading=\"lazy\" decoding=\"async\" class=\"alignright size-medium wp-image-20091\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/cordillera-blanca-peru-300x199.jpg\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/cordillera-blanca-peru-300x200.jpg 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/cordillera-blanca-peru-768x510.jpg 768w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/cordillera-blanca-peru-1024x680.jpg 1024w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/cordillera-blanca-peru-226x150.jpg 226w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/cordillera-blanca-peru-220x147.jpg 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/cordillera-blanca-peru-166x110.jpg 166w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/cordillera-blanca-peru-140x93.jpg 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/cordillera-blanca-peru-708x470.jpg 708w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/cordillera-blanca-peru-120x80.jpg 120w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/cordillera-blanca-peru-145x96.jpg 145w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/cordillera-blanca-peru.jpg 1280w\" \/><\/a><\/p>\n<p>&nbsp;<\/p>\n<p>&nbsp;<\/p>\n<p>Founded by DLR &amp; BMWI<\/p>\n<p><img loading=\"lazy\" decoding=\"async\" class=\"alignnone\" src=\"http:\/\/www.pa.op.dlr.de\/aeolus\/graphics\/dlr_logo_big.jpg\" alt=\"\" \/>\u00a0<img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-14311 noshadow\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/bmwi-300x179.jpg\" alt=\"bmwi\" \/><\/p>\n<p>&nbsp;<\/p>\n<p>&nbsp;<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"IMPECCABLE\" href=\"#collapse_32\" aria-expanded=\"false\" aria-controls=\"collapse_32\" id=\"collapse_button_32\"> IMPECCABLE <\/button><\/h2>\n<div id=\"collapse_32\" class=\"accordion-body\" name=\"IMPECCABLE\" aria-labelledby=\"collapse_button_32\">\n<div class=\"accordion-inner clearfix\">\n<h3 class=\"western\" align=\"LEFT\"><span lang=\"en-GB\"><b>IMP<\/b><\/span><span lang=\"en-GB\">roved g<\/span><span lang=\"en-GB\"><b>E<\/b><\/span><span lang=\"en-GB\">odeti<\/span><span lang=\"en-GB\"><b>C<\/b><\/span><span lang=\"en-GB\"> gla<\/span><span lang=\"en-GB\"><b>C<\/b><\/span><span lang=\"en-GB\">ier m<\/span><span lang=\"en-GB\"><b>A<\/b><\/span><span lang=\"en-GB\">ss <\/span><span lang=\"en-GB\"><b>B<\/b><\/span><span lang=\"en-GB\">a<\/span><span lang=\"en-GB\"><b>L<\/b><\/span><span lang=\"en-GB\">anc<\/span><span lang=\"en-GB\"><b>E<\/b><\/span><span lang=\"en-GB\"> measurements by integrating remote sensing, surface mass balance and firn compaction modelling \u2013 a case study from James Ross Island, Antarctica <b>(IMPECCABLE)<\/b><\/span><\/h3>\n<p class=\"western\">Duration: 2016-2019<\/p>\n<p class=\"western\">The aim of this project is an improvement of current estimates of glacier mass loss at James Ross island (JRI) on the east coast of the Antarctic Peninsula by comparing geodetic and flux approaches.<\/p>\n<p class=\"western\">Glaciers draining into the ice shelves responded with flow acceleration and increased ice discharge to ice shelf disintegration (e.g. Larsen A\/B) in the last years. There are still many uncertainties in mass balance modelling e.g. due to neglecting mass loss due to calving, unclear grounding line position, as well as errors in measured ice-thickness or conversion from volume to mass. Therefore, the differences between different models are not negligible and in situ measurements for validation are necessary.<\/p>\n<p class=\"western\">This projects will try to overcome these limitations by the integration of the following measurements into the model creation:<\/p>\n<ul>\n<li>\n<p lang=\"en-US\">In situ surface mass balance measurements, installation of two automatic weather stations and time lapse cameras on Gourdon Glacier<\/p>\n<\/li>\n<\/ul>\n<ul>\n<li>\n<p lang=\"en-US\">Static and kinematic differential as well as continuous GNSS measurements on JRI plateau and Gourdon Glacier<\/p>\n<\/li>\n<\/ul>\n<ul>\n<li>\n<p lang=\"en-US\">Ground Penetrating Radar surveys by helicopter<\/p>\n<\/li>\n<\/ul>\n<ul>\n<li>\n<p lang=\"en-US\">Elevation and volume change measurements by DinSAR<\/p>\n<\/li>\n<\/ul>\n<ul>\n<li>\n<p lang=\"en-US\">Ice dynamics from repeat TerraSAR-X acquisitions<\/p>\n<\/li>\n<\/ul>\n<p class=\"western\">Project-Members<span lang=\"de-DE\">: Stefan Lippl, Prof. Dr. Matthias Braun<\/span><\/p>\n<p class=\"western\" lang=\"en-US\">Project-Partners: <span lang=\"de-DE\">Dr. Daniel Nyvlt, Dr. Kamil Laska, Dr. Zdenek Stachon (Masaryk University, Brno), Dr. Zbynek Engel (Carles University, Prague), Ing. <\/span>Sebastian Marinsek (Instituto Ant\u00e1rtico Argentino)<\/p>\n<p>Founded by DFG under number BR2105\/13-1 within the czech-german collaborative candidacy 2015<\/p>\n<p><a href=\"http:\/\/www.dfg.de\/\" target=\"_blank\" rel=\"noopener\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-19776 size-medium aligncenter noshadow\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/DFG1-300x38-300x38.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-220x28.png 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-140x18.png 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/DFG1-300x38-145x18.png 145w\" \/><\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"TAPE\" href=\"#collapse_33\" aria-expanded=\"false\" aria-controls=\"collapse_33\" id=\"collapse_button_33\"> TAPE - Tapping the potential of Earth Observation <\/button><\/h2>\n<div id=\"collapse_33\" class=\"accordion-body\" name=\"TAPE\" aria-labelledby=\"collapse_button_33\">\n<div class=\"accordion-inner clearfix\">\n<h2><span lang=\"en-GB\">Tapping the potential of Earth Observations (TAPE) &#8211; FAU Emerging Fields Initiative<br \/>\n<\/span><\/h2>\n<p lang=\"en-US\">Project staff: Thorsten Seehaus, Lukas Sochor, Matthias Braun, Johannes F\u00fcrst, Eberhard B\u00e4nsch, Andreas Maier, Nora Gourmelon<\/p>\n<p lang=\"en-US\">The aim of this project is to analyse the time series of Earth observation (EO) data with innovative \u2018deep learning\u2019 methods in order to develop efficient algorithms for dealing with the large amounts of data involved. The value of these EO products is further increased by advanced interpolation techniques and assimilation in geophysical models from applied mathematics.<\/p>\n<p lang=\"en-US\">Funding period 2019-2022<\/p>\n<p lang=\"en-US\">Funded by FAU<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"RETREAT\" href=\"#collapse_34\" aria-expanded=\"false\" aria-controls=\"collapse_34\" id=\"collapse_button_34\"> RETREAT - Development of an interactive data portal for the processing and distribution of glaciological variables derived from Sentinel-1 data <\/button><\/h2>\n<div id=\"collapse_34\" class=\"accordion-body\" name=\"RETREAT\" aria-labelledby=\"collapse_button_34\">\n<div class=\"accordion-inner clearfix\">\n<h2><span lang=\"en-GB\">Development of an interactive data portal for the processing and distribution of glaciological variables derived from Sentinel-1 data (for glaciers and ice caps outside of the polar ice sheets) (RETREAT)<br \/>\n<\/span><\/h2>\n<p lang=\"en-US\">Project staff: Matthias Braun, Thorsten Seehaus, Peter Friedl<\/p>\n<p lang=\"en-US\">Glaciers and ice caps are essential climate variables and a longterm monitoring of cryospheric changes is of high scientific and socio-economic interest. The Sentinel satellites of the European Copernicus Program provide a continues stream of remote sensing data covering glaciers and ice caps. The aims of this project are: To implement an automatic processing chain on CODE-DE to derive glacier flow speed and extent information from Sentinel data; to archive, visualize and provide the obtained products via an interactive user interface. By using intensity feature tracking, glacier flow speed fields are computed based on Sentinel-1 SAR image pairs. Glacier extent is mapped by analyzing the coherence pattern of repeat pass SAR acquisitions. Moreover, calibrated SAR intensity images as well as Sentinel-2 RGB composites are also included in the database. Additionally, glaciological datasets (e.g. glacier inventories, altimeter data, digital elevation models) from different sources (external and from the work group) will be included and visualized in the database in order to support the online analysis of glaciological changes. The goal is to establish an interactive glaciological data portal for a broad spectrum (science, education, media, politics) of users.<\/p>\n<p lang=\"en-US\">Funding period 2018-2020<\/p>\n<p lang=\"en-US\">Funded by BMWK<\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\" data-name=\"PPF-TA\" href=\"#collapse_35\" aria-expanded=\"false\" aria-controls=\"collapse_35\" id=\"collapse_button_35\"> PPF-TA - Past, present and future glacier evolution in the Tropical Andes <\/button><\/h2>\n<div id=\"collapse_35\" class=\"accordion-body\" name=\"PPF-TA\" aria-labelledby=\"collapse_button_35\">\n<div class=\"accordion-inner clearfix\">\n<h2><span lang=\"en-GB\">Past, present and future glacier evolution in the Tropical Andes (PPF-TA)<br \/>\n<\/span><\/h2>\n<p lang=\"en-US\">Project staff:\u00a0 Thorsten Seehaus<\/p>\n<p lang=\"en-US\">Initial funding by FAU Emerging Talents Initiative for project preparation.<\/p>\n<p lang=\"en-US\">Within the project, the aerial imagery archive of Prof. E. Jordan was transferred to FAU, widely digitized and a precursor study was conducted.<\/p>\n<p lang=\"en-US\">Funding period 2021-2022<\/p>\n<p lang=\"en-US\">Funded by FAU Emerging Talents Initiative<\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group natfak\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_36\" aria-expanded=\"false\" aria-controls=\"collapse_36\" id=\"collapse_button_36\"> Teaching <\/button><\/h2>\n<div id=\"collapse_36\" class=\"accordion-body\" aria-labelledby=\"collapse_button_36\">\n<div class=\"accordion-inner clearfix\">\nIn a consecutive course program, we offer a comprehensive range of lectures and in particular computer-aided seminars on the practical handling of GIS and remote sensing. These events include both basic and advanced courses in GIS, remote sensing and digital image processing. Advanced modules are available in English if required and enable students to deepen their knowledge through to a specialization in the field of computer science. We are at your disposal for questions regarding course planning as well as final papers (Bachelor \/ Master). Bachelor&#8217;s theses require a visit to the basic knowledge courses; In particular, we recommend that you attend one or more of the specialization courses for master&#8217;s theses. Our teaching is specifically supported by eLearning materials. Please visit our <a title=\"GISwiki e-learning platform\" href=\"http:\/\/gis.wiki.fau.de\/mediawiki\/index.php\/Hauptseite\" target=\"_blank\" rel=\"noopener\">GIS-Wiki Homepage<\/a>.<\/p>\n<p><a href=\"https:\/\/www.geography.nat.fau.eu\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686.png\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-19856 aligncenter\" src=\"https:\/\/geographie.cms.rrze.uni-erlangen.de\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686-300x201.png\" alt=\"\" srcset=\"https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686-300x200.png 300w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686-768x515.png 768w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686.png 1024w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686-224x150.png 224w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686-220x147.png 220w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686-164x110.png 164w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686-140x94.png 140w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686-702x470.png 702w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686-120x80.png 120w, https:\/\/www.geographie.nat.fau.de\/files\/2018\/02\/AGBraun_Modulplan_de_2014-1024x686-145x97.png 145w\" \/><\/a><br \/>\nSee also: <strong><\/strong>, <strong><\/strong>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group natfak\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_37\" aria-expanded=\"false\" aria-controls=\"collapse_37\" id=\"collapse_button_37\"> Internships and stays abroad <\/button><\/h2>\n<div id=\"collapse_37\" class=\"accordion-body\" aria-labelledby=\"collapse_button_37\">\n<div class=\"accordion-inner clearfix\">\nWe maintain a close network with various national and international research institutions and private companies. We are happy to assist you in finding a suitable internship or advise you on studying abroad. As with the final thesis, it is important that you already have a good base of GIS and remote sensing knowledge to ensure a mutually beneficial stay for both parties.<\/p>\n<p><!--&#091;&#091;faukarte url=\"source\/5a77412a55d81\/layercontrol\/off\/layer\/RRZE.DE\/geolocation\/off\" width=\"100%\" height=\"200\"&#093;&#093;-->\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group natfak\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_38\" aria-expanded=\"false\" aria-controls=\"collapse_38\" id=\"collapse_button_38\"> Group publications <\/button><\/h2>\n<div id=\"collapse_38\" class=\"accordion-body\" aria-labelledby=\"collapse_button_38\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"cris\">\n<h3>2026<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/alexandre-becker-campos\">Becker Campos A.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Diez-Latteur A.<\/span>, <span class=\"author\" itemprop=\"author\">Bueso-Bello JL.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Rizzoli P.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/359649398?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">A snow properties-aware deep learning framework for penetration bias estimation of TanDEM-X DEMs over ice sheets<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_359649398\"><span itemprop=\"name\"><strong>Remote Sensing of Environment<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_359649398\" \/><span itemprop=\"volumeNumber\">334<\/span><\/span>  (<span itemprop=\"datePublished\">2026<\/span>), Article No.: <span itemprop=\"pagination\">115243<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_359649398\"><span itemprop=\"issn\">ISSN: 0034-4257<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.rse.2026.115243' target='blank' itemprop=\"sameAs\">10.1016\/j.rse.2026.115243<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/359649398.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Benn DI.<\/span>, <span class=\"author\" itemprop=\"author\">Wheel I.<\/span>, <span class=\"author\" itemprop=\"author\">\u00c5str\u00f6m J.<\/span>, <span class=\"author\" itemprop=\"author\">Christoffersen P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/samuel-cook\">Cook S.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Luckman A.<\/span>, <span class=\"author\" itemprop=\"author\">Nick F.<\/span>, <span class=\"author\" itemprop=\"author\">Hulton NR.<\/span>, <span class=\"author\" itemprop=\"author\">Hewitt I.<\/span>, <span class=\"author\" itemprop=\"author\">Bassis J.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/359668560?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Calving laws and where to find them<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_359668560\"><span itemprop=\"name\"><strong>Journal of Glaciology<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2026<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_359668560\"><span itemprop=\"issn\">ISSN: 0022-1430<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1017\/jog.2026.10128' target='blank' itemprop=\"sameAs\">10.1017\/jog.2026.10128<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/359668560.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/vijaya-kumar-thota\">Thota VK.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Knuth F.<\/span>, <span class=\"author\" itemprop=\"author\">Dehecq A.<\/span>, <span class=\"author\" itemprop=\"author\">Salewski C.<\/span>, <span class=\"author\" itemprop=\"author\">Far\u00edas-Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/359451684?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Digital Elevation Models and Orthomosaics of 1989 aerial imagery of the Western Antarctic Peninsula and surrounding islands between 66\u201368\u00b0 S<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_359451684\"><span itemprop=\"name\"><strong>Earth System Science Data<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_359451684\" \/><span itemprop=\"volumeNumber\">18<\/span><\/span>  (<span itemprop=\"datePublished\">2026<\/span>), p. <span itemprop=\"pagination\">597-615<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_359451684\"><span itemprop=\"issn\">ISSN: 1866-3508<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/essd-18-597-2026' target='blank' itemprop=\"sameAs\">10.5194\/essd-18-597-2026<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/359451684.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2025<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/alexandre-becker-campos\">Campos AB.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/343786074?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">A Deep Unsupervised Learning Approach for Monitoring Snow Facies Over Ice Sheets Using TanDEM-X Bistatic Data<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_343786074\"><span itemprop=\"name\"><strong>IEEE Transactions on Geoscience and Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_343786074\" \/><span itemprop=\"volumeNumber\">63<\/span><\/span>  (<span itemprop=\"datePublished\">2025<\/span>), Article No.: <span itemprop=\"pagination\">4301716<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_343786074\"><span itemprop=\"issn\">ISSN: 0196-2892<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1109\/TGRS.2025.3568123' target='blank' itemprop=\"sameAs\">10.1109\/TGRS.2025.3568123<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/343786074.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Dreier MN.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/moritz-koch\">Koch M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Gourmelon N.<\/span>, <span class=\"author\" itemprop=\"author\">Blindow N.<\/span>, <span class=\"author\" itemprop=\"author\">Steinhage D.<\/span>, <span class=\"author\" itemprop=\"author\">Wu F.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Maier A.<\/span>, <span class=\"author\" itemprop=\"author\">Christlein V.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/353097365?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">IceAnatomy: a benchmark dataset and methodology for automatic ice boundary extraction from radio-echo sounding data<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_353097365\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_353097365\" \/><span itemprop=\"volumeNumber\">19<\/span><\/span>  (<span itemprop=\"datePublished\">2025<\/span>), p. <span itemprop=\"pagination\">5337-5359<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_353097365\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-19-5337-2025' target='blank' itemprop=\"sameAs\">10.5194\/tc-19-5337-2025<\/a><br \/>URL: <a href='https:\/\/tc.copernicus.org\/articles\/19\/5337\/2025\/' target='blank' itemprop=\"url\">https:\/\/tc.copernicus.org\/articles\/19\/5337\/2025\/<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/353097365.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\">Bruckner T.<\/span>, <span class=\"author\" itemprop=\"author\">Scaff L.<\/span>, <span class=\"author\" itemprop=\"author\">Mergili M.<\/span>, <span class=\"author\" itemprop=\"author\">Montserrat S.<\/span>, <span class=\"author\" itemprop=\"author\">Pe\u00f1a H.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/351705762?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">The Parraguirre ice\u2013rock avalanche 1987, semi-arid Andes, Chile \u2013 a holistic revision<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_351705762\"><span itemprop=\"name\"><strong>Natural Hazards and Earth System Sciences<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_351705762\" \/><span itemprop=\"volumeNumber\">25<\/span><\/span>  (<span itemprop=\"datePublished\">2025<\/span>), p. <span itemprop=\"pagination\">3559-3579<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_351705762\"><span itemprop=\"issn\">ISSN: 1561-8633<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/nhess-25-3559-2025' target='blank' itemprop=\"sameAs\">10.5194\/nhess-25-3559-2025<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/351705762.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Gourmelon N.<\/span>, <span class=\"author\" itemprop=\"author\">Dreier MN.<\/span>, <span class=\"author\" itemprop=\"author\">Mayr M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Pyles DR.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Maier A.<\/span>, <span class=\"author\" itemprop=\"author\">Christlein V.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/347312198?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">SSL4SAR: Self-Supervised Learning for Glacier Calving Front Extraction from SAR Imagery<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_347312198\"><span itemprop=\"name\"><strong>IEEE Transactions on Geoscience and Remote Sensing<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2025<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_347312198\"><span itemprop=\"issn\">ISSN: 0196-2892<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1109\/TGRS.2025.3580945' target='blank' itemprop=\"sameAs\">10.1109\/TGRS.2025.3580945<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/347312198.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Humbert A.<\/span>, <span class=\"author\" itemprop=\"author\">Helm V.<\/span>, <span class=\"author\" itemprop=\"author\">Zeising O.<\/span>, <span class=\"author\" itemprop=\"author\">Neckel N.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Khan SA.<\/span>, <span class=\"author\" itemprop=\"author\">R\u00fcckamp M.<\/span>, <span class=\"author\" itemprop=\"author\">Steeb H.<\/span>, <span class=\"author\" itemprop=\"author\">Sohn J.<\/span>, <span class=\"author\" itemprop=\"author\">Bohnen M.<\/span>, <span class=\"author\" itemprop=\"author\">M\u00fcller R.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/350095907?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Insights into supraglacial lake drainage dynamics: triangular fracture formation, reactivation and long-lasting englacial features<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_350095907\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_350095907\" \/><span itemprop=\"volumeNumber\">19<\/span><\/span>  (<span itemprop=\"datePublished\">2025<\/span>), p. <span itemprop=\"pagination\">3009-3032<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_350095907\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-19-3009-2025' target='blank' itemprop=\"sameAs\">10.5194\/tc-19-3009-2025<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/350095907.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Kanzow T.<\/span>, <span class=\"author\" itemprop=\"author\">Humbert A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thomas-moelg\">M\u00f6lg T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Scheinert M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Burchard H.<\/span>, <span class=\"author\" itemprop=\"author\">Doglioni F.<\/span>, <span class=\"author\" itemprop=\"author\">Hochreuther P.<\/span>, <span class=\"author\" itemprop=\"author\">Horwath M.<\/span>, <span class=\"author\" itemprop=\"author\">Huhn O.<\/span>, <span class=\"author\" itemprop=\"author\">Kappelsberger M.<\/span>, <span class=\"author\" itemprop=\"author\">Kusche J.<\/span>, <span class=\"author\" itemprop=\"author\">Loebel E.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/katrina-bartek\">Lutz K.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Marzeion B.<\/span>, <span class=\"author\" itemprop=\"author\">Mcpherson R.<\/span>, <span class=\"author\" itemprop=\"author\">Mohammadi-Aragh M.<\/span>, <span class=\"author\" itemprop=\"author\">M\u00f6ller M.<\/span>, <span class=\"author\" itemprop=\"author\">Pickler C.<\/span>, <span class=\"author\" itemprop=\"author\">Reinert M.<\/span>, <span class=\"author\" itemprop=\"author\">Rhein M.<\/span>, <span class=\"author\" itemprop=\"author\">R\u00fcckamp M.<\/span>, <span class=\"author\" itemprop=\"author\">Schaffer J.<\/span>, <span class=\"author\" itemprop=\"author\">Shafeeque M.<\/span>, <span class=\"author\" itemprop=\"author\">Stolzenberger S.<\/span>, <span class=\"author\" itemprop=\"author\">Timmermann R.<\/span>, <span class=\"author\" itemprop=\"author\">Turton J.<\/span>, <span class=\"author\" itemprop=\"author\">Wekerle C.<\/span>, <span class=\"author\" itemprop=\"author\">Zeising O.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/342935445?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">The system of atmosphere, land, ice and ocean in the region near the 79N Glacier in northeast Greenland: synthesis and key findings from the Greenland Ice Sheet-Ocean Interaction (GROCE) experiment<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_342935445\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_342935445\" \/><span itemprop=\"volumeNumber\">19<\/span><\/span>  (<span itemprop=\"datePublished\">2025<\/span>), p. <span itemprop=\"pagination\">1789-1824<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_342935445\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-19-1789-2025' target='blank' itemprop=\"sameAs\">10.5194\/tc-19-1789-2025<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/342935445.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/moritz-koch\">Koch M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Blindow N.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/katrina-bartek\">Lutz K.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Skvarca P.<\/span>, <span class=\"author\" itemprop=\"author\">Ruiz L.<\/span>, <span class=\"author\" itemprop=\"author\">Rizzoli P.<\/span>, <span class=\"author\" itemprop=\"author\">Bueso-Bello JL.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/349338685?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">The state and fate of Glaciar Perito Moreno Patagonia<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_349338685\"><span itemprop=\"name\"><strong>Communications Earth & Environment<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_349338685\" \/><span itemprop=\"volumeNumber\">6<\/span><\/span>  (<span itemprop=\"datePublished\">2025<\/span>), Article No.: <span itemprop=\"pagination\">572<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_349338685\"><span itemprop=\"issn\">ISSN: 2662-4435<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1038\/s43247-025-02515-7' target='blank' itemprop=\"sameAs\">10.1038\/s43247-025-02515-7<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/349338685.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/katrina-bartek\">Lutz K.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/ilaria-tabone\">Tabone I.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Humbert A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/351708756?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Multi-annual patterns of rapidly draining supraglacial lakes in Northeast Greenland<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_351708756\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_351708756\" \/><span itemprop=\"volumeNumber\">19<\/span><\/span>  (<span itemprop=\"datePublished\">2025<\/span>), p. <span itemprop=\"pagination\">2601-2614<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_351708756\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-19-2601-2025' target='blank' itemprop=\"sameAs\">10.5194\/tc-19-2601-2025<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/351708756.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Shahateet K.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Navarro F.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Farinotti D.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/339933100?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">A reconstruction of the ice thickness of the Antarctic Peninsula Ice Sheet north of 70\u00b0 S<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_339933100\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_339933100\" \/><span itemprop=\"volumeNumber\">19<\/span><\/span>  (<span itemprop=\"datePublished\">2025<\/span>), p. <span itemprop=\"pagination\">1577-1597<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_339933100\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-19-1577-2025' target='blank' itemprop=\"sameAs\">10.5194\/tc-19-1577-2025<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/339933100.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Wu F.<\/span>, <span class=\"author\" itemprop=\"author\">Dreier MN.<\/span>, <span class=\"author\" itemprop=\"author\">Gourmelon N.<\/span>, <span class=\"author\" itemprop=\"author\">Wind S.<\/span>, <span class=\"author\" itemprop=\"author\">Zhang J.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Maier A.<\/span>, <span class=\"author\" itemprop=\"author\">Christlein V.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/355147610?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">AMD-HookNet++: Evolution of AMD-HookNet with Hybrid CNN-Transformer Feature Enhancement for Glacier Calving Front Segmentation<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_355147610\"><span itemprop=\"name\"><strong>IEEE Transactions on Geoscience and Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_355147610\" \/><span itemprop=\"volumeNumber\">64<\/span><\/span>  (<span itemprop=\"datePublished\">2025<\/span>), p. <span itemprop=\"pagination\">1-22<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_355147610\"><span itemprop=\"issn\">ISSN: 0196-2892<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1109\/TGRS.2025.3642764' target='blank' itemprop=\"sameAs\">10.1109\/TGRS.2025.3642764<\/a><br \/>URL: <a href='https:\/\/ieeexplore.ieee.org\/document\/11296938' target='blank' itemprop=\"url\">https:\/\/ieeexplore.ieee.org\/document\/11296938<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/355147610.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Zemp M.<\/span>, <span class=\"author\" itemprop=\"author\">Jakob L.<\/span>, <span class=\"author\" itemprop=\"author\">Dussaillant I.<\/span>, <span class=\"author\" itemprop=\"author\">Nussbaumer SU.<\/span>, <span class=\"author\" itemprop=\"author\">Gourmelen N.<\/span>, <span class=\"author\" itemprop=\"author\">Dubber S.<\/span>, <span class=\"author\" itemprop=\"author\">A G.<\/span>, <span class=\"author\" itemprop=\"author\">Abdullahi S.<\/span>, <span class=\"author\" itemprop=\"author\">Andreassen LM.<\/span>, <span class=\"author\" itemprop=\"author\">Berthier E.<\/span>, <span class=\"author\" itemprop=\"author\">Bhattacharya A.<\/span>, <span class=\"author\" itemprop=\"author\">Blazquez A.<\/span>, <span class=\"author\" itemprop=\"author\">Boehm Vock L.<\/span>, <span class=\"author\" itemprop=\"author\">Bolch T.<\/span>, <span class=\"author\" itemprop=\"author\">Box J.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Brun F.<\/span>, <span class=\"author\" itemprop=\"author\">Cicero E.<\/span>, <span class=\"author\" itemprop=\"author\">Colgan W.<\/span>, <span class=\"author\" itemprop=\"author\">Eckert N.<\/span>, <span class=\"author\" itemprop=\"author\">Farinotti D.<\/span>, <span class=\"author\" itemprop=\"author\">Florentine C.<\/span>, <span class=\"author\" itemprop=\"author\">Floricioiu D.<\/span>, <span class=\"author\" itemprop=\"author\">Gardner A.<\/span>, <span class=\"author\" itemprop=\"author\">Harig C.<\/span>, <span class=\"author\" itemprop=\"author\">Hassan J.<\/span>, <span class=\"author\" itemprop=\"author\">Hugonnet R.<\/span>, <span class=\"author\" itemprop=\"author\">Huss M.<\/span>, <span class=\"author\" itemprop=\"author\">J\u00f3hannesson T.<\/span>, <span class=\"author\" itemprop=\"author\">Liang CA.<\/span>, <span class=\"author\" itemprop=\"author\">Ke CQ.<\/span>, <span class=\"author\" itemprop=\"author\">Abbas Khan S.<\/span>, <span class=\"author\" itemprop=\"author\">King O.<\/span>, <span class=\"author\" itemprop=\"author\">Kneib M.<\/span>, <span class=\"author\" itemprop=\"author\">Krieger L.<\/span>, <span class=\"author\" itemprop=\"author\">Maussion F.<\/span>, <span class=\"author\" itemprop=\"author\">Mattea E.<\/span>, <span class=\"author\" itemprop=\"author\">Mcnabb R.<\/span>, <span class=\"author\" itemprop=\"author\">Menounos B.<\/span>, <span class=\"author\" itemprop=\"author\">Miles E.<\/span>, <span class=\"author\" itemprop=\"author\">Moholdt G.<\/span>, <span class=\"author\" itemprop=\"author\">Nilsson J.<\/span>, <span class=\"author\" itemprop=\"author\">P\u00e1lsson F.<\/span>, <span class=\"author\" itemprop=\"author\">Pfeffer J.<\/span>, <span class=\"author\" itemprop=\"author\">Piermattei L.<\/span>, <span class=\"author\" itemprop=\"author\">Plummer S.<\/span>, <span class=\"author\" itemprop=\"author\">Richter AJ.<\/span>, <span class=\"author\" itemprop=\"author\">Sasgen I.<\/span>, <span class=\"author\" itemprop=\"author\">Schuster L.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Shen X.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Sutterley T.<\/span>, <span class=\"author\" itemprop=\"author\">Treichler D.<\/span>, <span class=\"author\" itemprop=\"author\">Velicogna I.<\/span>, <span class=\"author\" itemprop=\"author\">Wouters B.<\/span>, <span class=\"author\" itemprop=\"author\">Zekollari H.<\/span>, <span class=\"author\" itemprop=\"author\">Zheng W.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/337422037?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Community estimate of global glacier mass changes from 2000 to 2023<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_337422037\"><span itemprop=\"name\"><strong>Nature<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_337422037\" \/><span itemprop=\"volumeNumber\">639<\/span><\/span>  (<span itemprop=\"datePublished\">2025<\/span>), p. <span itemprop=\"pagination\">382-388<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_337422037\"><span itemprop=\"issn\">ISSN: 0028-0836<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1038\/s41586-024-08545-z' target='blank' itemprop=\"sameAs\">10.1038\/s41586-024-08545-z<\/a><br \/>URL: <a href='https:\/\/www.nature.com\/articles\/s41586-024-08545-z' target='blank' itemprop=\"url\">https:\/\/www.nature.com\/articles\/s41586-024-08545-z<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/337422037.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2024<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Krachten F.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/334304990?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Mit dem Polarflugzeug \u00fcber Patagonien<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_334304990\"><span itemprop=\"name\"><strong>Geographische Rundschau<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_334304990\" \/><span itemprop=\"volumeNumber\">76<\/span><\/span>  (<span itemprop=\"datePublished\">2024<\/span>), p. <span itemprop=\"pagination\">57<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_334304990\"><span itemprop=\"issn\">ISSN: 0016-7460<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/334304990.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Krachten F.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/331160425?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Mit dem Polarflugzeug \u00fcber Patagonien<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_331160425\"><span itemprop=\"name\"><strong>Geographische Rundschau<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_331160425\" \/><span itemprop=\"volumeNumber\">76<\/span><\/span>  (<span itemprop=\"datePublished\">2024<\/span>), p. <span itemprop=\"pagination\">57-<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_331160425\"><span itemprop=\"issn\">ISSN: 0016-7460<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/331160425.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\">Blindow N.<\/span>, <span class=\"author\" itemprop=\"author\">Casassa G.<\/span>, <span class=\"author\" itemprop=\"author\">Gacit\u00faa G.<\/span>, <span class=\"author\" itemprop=\"author\">Koppes M.<\/span>, <span class=\"author\" itemprop=\"author\">Lodolo E.<\/span>, <span class=\"author\" itemprop=\"author\">Millan R.<\/span>, <span class=\"author\" itemprop=\"author\">Minowa M.<\/span>, <span class=\"author\" itemprop=\"author\">Mouginot J.<\/span>, <span class=\"author\" itemprop=\"author\">P\u0229tlicki M.<\/span>, <span class=\"author\" itemprop=\"author\">Rignot E.<\/span>, <span class=\"author\" itemprop=\"author\">Rivera A.<\/span>, <span class=\"author\" itemprop=\"author\">Skvarca P.<\/span>, <span class=\"author\" itemprop=\"author\">Stuefer M.<\/span>, <span class=\"author\" itemprop=\"author\">Sugiyama S.<\/span>, <span class=\"author\" itemprop=\"author\">Uribe J.<\/span>, <span class=\"author\" itemprop=\"author\">Zamora R.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Gillet-Chaulet F.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Meier W.<\/span>, <span class=\"author\" itemprop=\"author\">Schaefer M.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/320285244?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">The foundations of the Patagonian icefields<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_320285244\"><span itemprop=\"name\"><strong>Communications Earth & Environment<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_320285244\" \/><span itemprop=\"volumeNumber\">5<\/span><\/span>  (<span itemprop=\"datePublished\">2024<\/span>), Article No.: <span itemprop=\"pagination\">142<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_320285244\"><span itemprop=\"issn\">ISSN: 2662-4435<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1038\/s43247-023-01193-7' target='blank' itemprop=\"sameAs\">10.1038\/s43247-023-01193-7<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/320285244.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/anne-hinzmann\">Hinzmann A.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thomas-moelg\">M\u00f6lg T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Cullen NJ.<\/span>, <span class=\"author\" itemprop=\"author\">Hardy DR.<\/span>, <span class=\"author\" itemprop=\"author\">Kaser G.<\/span>, <span class=\"author\" itemprop=\"author\">Prinz R.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/347523680?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Tropical glacier loss in East Africa: recent areal extents on Kilimanjaro, Mount Kenya, and in the Rwenzori Range from high-resolution remote sensing data<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_347523680\"><span itemprop=\"name\"><strong>Environmental Research: Climate<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_347523680\" \/><span itemprop=\"volumeNumber\">3<\/span><\/span>  (<span itemprop=\"datePublished\">2024<\/span>), Article No.: <span itemprop=\"pagination\">011003<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_347523680\"><span itemprop=\"issn\">ISSN: 2752-5295<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1088\/2752-5295\/ad1fd7' target='blank' itemprop=\"sameAs\">10.1088\/2752-5295\/ad1fd7<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/347523680.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Krabbe L.<\/span>, <span class=\"author\" itemprop=\"author\">Haberberger N.<\/span>, <span class=\"author\" itemprop=\"author\">Stelzig M.<\/span>, <span class=\"author\" itemprop=\"author\">Pfluger F.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Vossiek M.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/328702333?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Design and Verification of a Versatile and Lightweight Radar Platform for High-Resolution Imaging of Glacial Subsurface Structures<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_328702333\"><span itemprop=\"name\"><strong>IEEE Journal of Microwaves<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2024<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_328702333\"><span itemprop=\"issn\">ISSN: 2692-8388<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1109\/JMW.2024.3445997' target='blank' itemprop=\"sameAs\">10.1109\/JMW.2024.3445997<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/328702333.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/katrina-bartek\">Lutz K.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Bever L.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Humbert A.<\/span>, <span class=\"author\" itemprop=\"author\">Scheinert M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/332375949?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Assessing supraglacial lake depth using ICESat-2, Sentinel-2, TanDEM-X, and in situ sonar measurements over Northeast and Southwest Greenland<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_332375949\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_332375949\" \/><span itemprop=\"volumeNumber\">18<\/span><\/span>  (<span itemprop=\"datePublished\">2024<\/span>), p. <span itemprop=\"pagination\">5431-5449<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_332375949\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-18-5431-2024' target='blank' itemprop=\"sameAs\">10.5194\/tc-18-5431-2024<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/332375949.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Piermattei L.<\/span>, <span class=\"author\" itemprop=\"author\">Zemp M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Brun F.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Andreassen LM.<\/span>, <span class=\"author\" itemprop=\"author\">Belart JM.<\/span>, <span class=\"author\" itemprop=\"author\">Berthier E.<\/span>, <span class=\"author\" itemprop=\"author\">Bhattacharya A.<\/span>, <span class=\"author\" itemprop=\"author\">Boehm Vock L.<\/span>, <span class=\"author\" itemprop=\"author\">Bolch T.<\/span>, <span class=\"author\" itemprop=\"author\">Dehecq A.<\/span>, <span class=\"author\" itemprop=\"author\">Dussaillant I.<\/span>, <span class=\"author\" itemprop=\"author\">Falaschi D.<\/span>, <span class=\"author\" itemprop=\"author\">Florentine C.<\/span>, <span class=\"author\" itemprop=\"author\">Floricioiu D.<\/span>, <span class=\"author\" itemprop=\"author\">Ginzler C.<\/span>, <span class=\"author\" itemprop=\"author\">Guillet G.<\/span>, <span class=\"author\" itemprop=\"author\">Hugonnet R.<\/span>, <span class=\"author\" itemprop=\"author\">Huss M.<\/span>, <span class=\"author\" itemprop=\"author\">K\u00e4\u00e4b A.<\/span>, <span class=\"author\" itemprop=\"author\">King O.<\/span>, <span class=\"author\" itemprop=\"author\">Klug C.<\/span>, <span class=\"author\" itemprop=\"author\">Knuth F.<\/span>, <span class=\"author\" itemprop=\"author\">Krieger L.<\/span>, <span class=\"author\" itemprop=\"author\">La Frenierre J.<\/span>, <span class=\"author\" itemprop=\"author\">Mcnabb R.<\/span>, <span class=\"author\" itemprop=\"author\">Mcneil C.<\/span>, <span class=\"author\" itemprop=\"author\">Prinz R.<\/span>, <span class=\"author\" itemprop=\"author\">Sass L.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Shean D.<\/span>, <span class=\"author\" itemprop=\"author\">Treichler D.<\/span>, <span class=\"author\" itemprop=\"author\">Wendt A.<\/span>, <span class=\"author\" itemprop=\"author\">Yang R.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/326406155?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Observing glacier elevation changes from spaceborne optical and radar sensors - an inter-comparison experiment using ASTER and TanDEM-X data<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_326406155\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_326406155\" \/><span itemprop=\"volumeNumber\">18<\/span><\/span>  (<span itemprop=\"datePublished\">2024<\/span>), p. <span itemprop=\"pagination\">3195-3230<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_326406155\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-18-3195-2024' target='blank' itemprop=\"sameAs\">10.5194\/tc-18-3195-2024<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/326406155.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Wendleder A.<\/span>, <span class=\"author\" itemprop=\"author\">Bramboeck J.<\/span>, <span class=\"author\" itemprop=\"author\">Izzard J.<\/span>, <span class=\"author\" itemprop=\"author\">Erbertseder T.<\/span>, <span class=\"author\" itemprop=\"author\">D'Angelo P.<\/span>, <span class=\"author\" itemprop=\"author\">Schmitt A.<\/span>, <span class=\"author\" itemprop=\"author\">Quincey DJ.<\/span>, <span class=\"author\" itemprop=\"author\">Mayer C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/319713334?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Velocity variations and hydrological drainage at Baltoro Glacier, Pakistan<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_319713334\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_319713334\" \/><span itemprop=\"volumeNumber\">18<\/span><\/span>  (<span itemprop=\"datePublished\">2024<\/span>), p. <span itemprop=\"pagination\">1085-1103<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_319713334\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-18-1085-2024' target='blank' itemprop=\"sameAs\">10.5194\/tc-18-1085-2024<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/319713334.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Wu F.<\/span>, <span class=\"author\" itemprop=\"author\">Gourmelon N.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Zhang J.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Maier A.<\/span>, <span class=\"author\" itemprop=\"author\">Christlein V.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/318997715?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Contextual HookFormer for Glacier Calving Front Segmentation<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_318997715\"><span itemprop=\"name\"><strong>IEEE Transactions on Geoscience and Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_318997715\" \/><span itemprop=\"volumeNumber\">62<\/span><\/span>  (<span itemprop=\"datePublished\">2024<\/span>), p. <span itemprop=\"pagination\">1-15<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_318997715\"><span itemprop=\"issn\">ISSN: 0196-2892<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1109\/TGRS.2024.3368215' target='blank' itemprop=\"sameAs\">10.1109\/TGRS.2024.3368215<\/a><br \/>URL: <a href='https:\/\/ieeexplore.ieee.org\/document\/10440599' target='blank' itemprop=\"url\">https:\/\/ieeexplore.ieee.org\/document\/10440599<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/318997715.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2023<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Cook S.J., Jouvet G., Millan R., Rabatel A., Zekollari H., Dussaillant I.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/356018879?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Committed Ice Loss in the European Alps Until 2050 Using a Deep-Learning-Aided 3D Ice-Flow Model With Data Assimilation<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_356018879\"><span itemprop=\"name\"><strong>Geophysical Research Letters<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_356018879\" \/><span itemprop=\"volumeNumber\">50<\/span><\/span>  (<span itemprop=\"datePublished\">2023<\/span>), Article No.: <span itemprop=\"pagination\">e2023GL105029<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_356018879\"><span itemprop=\"issn\">ISSN: 0094-8276<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1029\/2023GL105029' target='blank' itemprop=\"sameAs\">10.1029\/2023GL105029<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/356018879.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Cook S.J., Christoffersen P., Wheel I.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/356019189?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Coupled 3-D full-Stokes modelling of tidewater glaciers<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_356019189\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_356019189\" \/><span itemprop=\"volumeNumber\">66<\/span><\/span>  (<span itemprop=\"datePublished\">2023<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_356019189\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1017\/aog.2023.4' target='blank' itemprop=\"sameAs\">10.1017\/aog.2023.4<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/356019189.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Graiff A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Driemel A.<\/span>, <span class=\"author\" itemprop=\"author\">Ebbing J.<\/span>, <span class=\"author\" itemprop=\"author\">Grossart HP.<\/span>, <span class=\"author\" itemprop=\"author\">Harder T.<\/span>, <span class=\"author\" itemprop=\"author\">Hoffman JI.<\/span>, <span class=\"author\" itemprop=\"author\">Koch B.<\/span>, <span class=\"author\" itemprop=\"author\">Leese F.<\/span>, <span class=\"author\" itemprop=\"author\">Piontek J.<\/span>, <span class=\"author\" itemprop=\"author\">Scheinert M.<\/span>, <span class=\"author\" itemprop=\"author\">Quillfeldt P.<\/span>, <span class=\"author\" itemprop=\"author\">Zimmermann J.<\/span>, <span class=\"author\" itemprop=\"author\">Karsten U.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/312693391?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Big data in Antarctic sciences-current status, gaps, and future perspectives<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_312693391\"><span itemprop=\"name\"><strong>Polarforschung<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_312693391\" \/><span itemprop=\"volumeNumber\">91<\/span><\/span>  (<span itemprop=\"datePublished\">2023<\/span>), p. <span itemprop=\"pagination\">45-57<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_312693391\"><span itemprop=\"issn\">ISSN: 0032-2490<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/polf-91-45-2023' target='blank' itemprop=\"sameAs\">10.5194\/polf-91-45-2023<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/312693391.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/oskar-herrmann\">Herrmann O.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Gourmelon N.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Maier A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Christlein V.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/290496342?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Out-of-the-box Calving Front Detection Method Using Deep Learning<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_290496342\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_290496342\" \/><span itemprop=\"volumeNumber\">17<\/span><\/span>  (<span itemprop=\"datePublished\">2023<\/span>), p. <span itemprop=\"pagination\">4957\u20134977<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_290496342\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-17-4957-2023' target='blank' itemprop=\"sameAs\">10.5194\/tc-17-4957-2023<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/290496342.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/moritz-koch\">Koch M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Friedl P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/297276210?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Automated Detection of Glacier Surges from Sentinel-1 Surface Velocity Time Series-An Example from Svalbard<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_297276210\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_297276210\" \/><span itemprop=\"volumeNumber\">15<\/span><\/span>  (<span itemprop=\"datePublished\">2023<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_297276210\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs15061545' target='blank' itemprop=\"sameAs\">10.3390\/rs15061545<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/297276210.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Dethinne T.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/313616568?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Mass changes of the northern Antarctic Peninsula Ice Sheet derived from repeat bi-static synthetic aperture radar acquisitions for the period 2013\u20132017<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_313616568\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_313616568\" \/><span itemprop=\"volumeNumber\">17<\/span><\/span>  (<span itemprop=\"datePublished\">2023<\/span>), p. <span itemprop=\"pagination\">4629-4644<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_313616568\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-17-4629-2023' target='blank' itemprop=\"sameAs\">10.5194\/tc-17-4629-2023<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/313616568.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Shahateet K.<\/span>, <span class=\"author\" itemprop=\"author\">Navarro F.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/313944538?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Estimating ice discharge of the Antarctic Peninsula using different ice-thickness datasets<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_313944538\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2023<\/span>), p. <span itemprop=\"pagination\">1-12<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_313944538\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1017\/aog.2023.67' target='blank' itemprop=\"sameAs\">10.1017\/aog.2023.67<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/313944538.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Huss M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/332518295?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Constraining regional glacier reconstructions using past ice thickness of deglaciating areas - a case study in the European Alps<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_332518295\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_332518295\" \/><span itemprop=\"volumeNumber\">17<\/span><\/span>  (<span itemprop=\"datePublished\">2023<\/span>), p. <span itemprop=\"pagination\">2285-2303<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_332518295\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-17-2285-2023' target='blank' itemprop=\"sameAs\">10.5194\/tc-17-2285-2023<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/332518295.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/franziska-temme\">Temme F.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Jan\u00e3 R.<\/span>, <span class=\"author\" itemprop=\"author\">Arigony-Neto J.<\/span>, <span class=\"author\" itemprop=\"author\">Gonzalez I.<\/span>, <span class=\"author\" itemprop=\"author\">Arndt A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/tobias-sauter\">Sauter T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Schneider C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/306054825?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Strategies for regional modeling of surface mass balance at the Monte Sarmiento Massif, Tierra del Fuego<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_306054825\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_306054825\" \/><span itemprop=\"volumeNumber\">17<\/span><\/span>  (<span itemprop=\"datePublished\">2023<\/span>), p. <span itemprop=\"pagination\">2343--2365<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_306054825\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-17-2343-2023' target='blank' itemprop=\"sameAs\">10.5194\/tc-17-2343-2023<\/a><br \/>URL: <a href='https:\/\/tc.copernicus.org\/articles\/17\/2343\/2023\/' target='blank' itemprop=\"url\">https:\/\/tc.copernicus.org\/articles\/17\/2343\/2023\/<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/306054825.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Wu F.<\/span>, <span class=\"author\" itemprop=\"author\">Gourmelon N.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Zhang J.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Maier A.<\/span>, <span class=\"author\" itemprop=\"author\">Christlein V.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/289901198?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">AMD-HookNet for Glacier Front Segmentation<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_289901198\"><span itemprop=\"name\"><strong>IEEE Transactions on Geoscience and Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_289901198\" \/><span itemprop=\"volumeNumber\">61<\/span><\/span>  (<span itemprop=\"datePublished\">2023<\/span>), p. <span itemprop=\"pagination\">1-12<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_289901198\"><span itemprop=\"issn\">ISSN: 0196-2892<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1109\/TGRS.2023.3245419' target='blank' itemprop=\"sameAs\">10.1109\/TGRS.2023.3245419<\/a><br \/>URL: <a href='https:\/\/ieeexplore.ieee.org\/document\/10044700' target='blank' itemprop=\"url\">https:\/\/ieeexplore.ieee.org\/document\/10044700<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/289901198.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Zuhr AM.<\/span>, <span class=\"author\" itemprop=\"author\">Loebel E.<\/span>, <span class=\"author\" itemprop=\"author\">Muchow M.<\/span>, <span class=\"author\" itemprop=\"author\">Dennis D.<\/span>, <span class=\"author\" itemprop=\"author\">von Albedyll L.<\/span>, <span class=\"author\" itemprop=\"author\">Kruse F.<\/span>, <span class=\"author\" itemprop=\"author\">Kassens H.<\/span>, <span class=\"author\" itemprop=\"author\">Grabow J.<\/span>, <span class=\"author\" itemprop=\"author\">Piepenburg D.<\/span>, <span class=\"author\" itemprop=\"author\">Brandt S.<\/span>, <span class=\"author\" itemprop=\"author\">Lehmann R.<\/span>, <span class=\"author\" itemprop=\"author\">Jessen M.<\/span>, <span class=\"author\" itemprop=\"author\">Kr\u00fcger F.<\/span>, <span class=\"author\" itemprop=\"author\">Kallfelz M.<\/span>, <span class=\"author\" itemprop=\"author\">Preu\u00dfer A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Lisker F.<\/span>, <span class=\"author\" itemprop=\"author\">R\u00f6hnert D.<\/span>, <span class=\"author\" itemprop=\"author\">Scheinert M.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/313618052?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Insights into German polar research during POLARSTUNDE<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_313618052\"><span itemprop=\"name\"><strong>Polarforschung<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_313618052\" \/><span itemprop=\"volumeNumber\">91<\/span><\/span>  (<span itemprop=\"datePublished\">2023<\/span>), p. <span itemprop=\"pagination\">73-80<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_313618052\"><span itemprop=\"issn\">ISSN: 0032-2490<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/polf-91-73-2023' target='blank' itemprop=\"sameAs\">10.5194\/polf-91-73-2023<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/313618052.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2022<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Davari A.<\/span>, <span class=\"author\" itemprop=\"author\">Baller C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Maier A.<\/span>, <span class=\"author\" itemprop=\"author\">Christlein V.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/271382042?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Pixel-wise Distance Regression for Glacier Calving Front Detection and Segmentation<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_271382042\"><span itemprop=\"name\"><strong>IEEE Transactions on Geoscience and Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_271382042\" \/><span itemprop=\"volumeNumber\">60<\/span><\/span>  (<span itemprop=\"datePublished\">2022<\/span>), p. <span itemprop=\"pagination\">1-10<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_271382042\"><span itemprop=\"issn\">ISSN: 0196-2892<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1109\/TGRS.2022.3158591' target='blank' itemprop=\"sameAs\">10.1109\/TGRS.2022.3158591<\/a><br \/>URL: <a href='https:\/\/arxiv.org\/pdf\/2103.05715' target='blank' itemprop=\"url\">https:\/\/arxiv.org\/pdf\/2103.05715<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/271382042.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Gourmelon N.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Maier A.<\/span>, <span class=\"author\" itemprop=\"author\">Christlein V.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/281992322?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Calving fronts and where to find them: a benchmark dataset and methodology for automatic glacier calving front extraction from synthetic aperture radar imagery<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_281992322\"><span itemprop=\"name\"><strong>Earth System Science Data<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_281992322\" \/><span itemprop=\"volumeNumber\">14<\/span><\/span>  (<span itemprop=\"datePublished\">2022<\/span>), p. <span itemprop=\"pagination\">4287--4313<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_281992322\"><span itemprop=\"issn\">ISSN: 1866-3508<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/essd-14-4287-2022' target='blank' itemprop=\"sameAs\">10.5194\/essd-14-4287-2022<\/a><br \/>URL: <a href='https:\/\/essd.copernicus.org\/articles\/14\/4287\/2022\/' target='blank' itemprop=\"url\">https:\/\/essd.copernicus.org\/articles\/14\/4287\/2022\/<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/281992322.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Gurdiel I.<\/span>, <span class=\"author\" itemprop=\"author\">Rada C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Casassa G.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/277814283?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Glacier inventory and recent variations of Santa In\u00e9s Icefield, Southern Patagonia<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_277814283\"><span itemprop=\"name\"><strong>Arctic, Antarctic, and Alpine Research<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_277814283\" \/><span itemprop=\"volumeNumber\">54<\/span><\/span>  (<span itemprop=\"datePublished\">2022<\/span>), p. <span itemprop=\"pagination\">202-220<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_277814283\"><span itemprop=\"issn\">ISSN: 1523-0430<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1080\/15230430.2022.2071793' target='blank' itemprop=\"sameAs\">10.1080\/15230430.2022.2071793<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/277814283.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Luo J.<\/span>, <span class=\"author\" itemprop=\"author\">Ke CQ.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/279077074?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">The West Kunlun Glacier Anomaly and Its Response to Climate Forcing during 2002\u20132020<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_279077074\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_279077074\" \/><span itemprop=\"volumeNumber\">14<\/span><\/span>  (<span itemprop=\"datePublished\">2022<\/span>), p. <span itemprop=\"pagination\">3465<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_279077074\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs14143465' target='blank' itemprop=\"sameAs\">10.3390\/rs14143465<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/279077074.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Nambiar KG.<\/span>, <span class=\"author\" itemprop=\"author\">Morgenshtern V.<\/span>, <span class=\"author\" itemprop=\"author\">Hochreuther P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/272732610?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">A Self-Trained Model for Cloud, Shadow and Snow Detection in Sentinel-2 Images of Snow- and Ice-Covered Regions<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_272732610\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_272732610\" \/><span itemprop=\"volumeNumber\">14<\/span><\/span>  (<span itemprop=\"datePublished\">2022<\/span>), p. <span itemprop=\"pagination\">1825<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_272732610\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs14081825' target='blank' itemprop=\"sameAs\">10.3390\/rs14081825<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/272732610.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Periyasamy M.<\/span>, <span class=\"author\" itemprop=\"author\">Davari A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Maier A.<\/span>, <span class=\"author\" itemprop=\"author\">Christlein V.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/270176889?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">How to Get the Most Out of U-Net for Glacier Calving Front Segmentation<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_270176889\"><span itemprop=\"name\"><strong>IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2022<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_270176889\"><span itemprop=\"issn\">ISSN: 1939-1404<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1109\/JSTARS.2022.3148033' target='blank' itemprop=\"sameAs\">10.1109\/JSTARS.2022.3148033<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/270176889.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Glazovsky A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/268136287?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Brief communication: Increased glacier mass loss in the Russian High Arctic (2010-2017)<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_268136287\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_268136287\" \/><span itemprop=\"volumeNumber\">16<\/span><\/span>  (<span itemprop=\"datePublished\">2022<\/span>), p. <span itemprop=\"pagination\">35-42<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_268136287\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-16-35-2022' target='blank' itemprop=\"sameAs\">10.5194\/tc-16-35-2022<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/268136287.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2021<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Cook S.J., Christoffersen P., Truffer M., Chudley T.R., Abell\u00e1n A.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/356018566?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Calving of a Large Greenlandic Tidewater Glacier has Complex Links to Meltwater Plumes and M\u00e9lange<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_356018566\"><span itemprop=\"name\"><strong>Journal of Geophysical Research F: Earth Surface<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_356018566\" \/><span itemprop=\"volumeNumber\">126<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>), Article No.: <span itemprop=\"pagination\">e2020JF006051<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_356018566\"><span itemprop=\"issn\">ISSN: 2169-9003<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1029\/2020JF006051' target='blank' itemprop=\"sameAs\">10.1029\/2020JF006051<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/356018566.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Davari A.<\/span>, <span class=\"author\" itemprop=\"author\">Islam S.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Hartmann A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Maier A.<\/span>, <span class=\"author\" itemprop=\"author\">Christlein V.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/265452526?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">On Mathews Correlation Coefficient and Improved Distance Map Loss for Automatic Glacier Calving Front Segmentation in SAR Imagery<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_265452526\"><span itemprop=\"name\"><strong>IEEE Transactions on Geoscience and Remote Sensing<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2021<\/span>), p. <span itemprop=\"pagination\">1-12<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_265452526\"><span itemprop=\"issn\">ISSN: 0196-2892<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1109\/TGRS.2021.3115883' target='blank' itemprop=\"sameAs\">10.1109\/TGRS.2021.3115883<\/a><br \/>URL: <a href='https:\/\/arxiv.org\/abs\/2102.08312' target='blank' itemprop=\"url\">https:\/\/arxiv.org\/abs\/2102.08312<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/265452526.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Diener T.<\/span>, <span class=\"author\" itemprop=\"author\">Sasgen I.<\/span>, <span class=\"author\" itemprop=\"author\">Agosta C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Konrad H.<\/span>, <span class=\"author\" itemprop=\"author\">Fettweis X.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/267743368?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Acceleration of Dynamic Ice Loss in Antarctica From Satellite Gravimetry<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_267743368\"><span itemprop=\"name\"><strong>Frontiers in Earth Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_267743368\" \/><span itemprop=\"volumeNumber\">9<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_267743368\"><span itemprop=\"issn\">ISSN: 2296-6463<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3389\/feart.2021.741789' target='blank' itemprop=\"sameAs\">10.3389\/feart.2021.741789<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/267743368.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">D\u00f6pper V.<\/span>, <span class=\"author\" itemprop=\"author\">Panda S.<\/span>, <span class=\"author\" itemprop=\"author\">Waigl C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/254745376?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Using floristic gradient mapping to assess seasonal thaw depth in interior Alaska<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_254745376\"><span itemprop=\"name\"><strong>Applied Vegetation Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_254745376\" \/><span itemprop=\"volumeNumber\">24<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>), Article No.: <span itemprop=\"pagination\">e12561<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_254745376\"><span itemprop=\"issn\">ISSN: 1654-109X<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1111\/avsc.12561' target='blank' itemprop=\"sameAs\">10.1111\/avsc.12561<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/254745376.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Friedl P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/265029217?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Global time series and temporal mosaics of glacier surface velocities derived from Sentinel-1 data<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_265029217\"><span itemprop=\"name\"><strong>Earth System Science Data<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_265029217\" \/><span itemprop=\"volumeNumber\">13<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>), p. <span itemprop=\"pagination\">4653-4675<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_265029217\"><span itemprop=\"issn\">ISSN: 1866-3508<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/essd-13-4653-2021' target='blank' itemprop=\"sameAs\">10.5194\/essd-13-4653-2021<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/265029217.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Hochreuther P.<\/span>, <span class=\"author\" itemprop=\"author\">Neckel N.<\/span>, <span class=\"author\" itemprop=\"author\">Reimann N.<\/span>, <span class=\"author\" itemprop=\"author\">Humbert A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/247695363?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Fully Automated Detection of Supraglacial Lake Area for Northeast Greenland Using Sentinel-2 Time-Series<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_247695363\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_247695363\" \/><span itemprop=\"volumeNumber\">13<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>), p. <span itemprop=\"pagination\">205<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_247695363\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs13020205' target='blank' itemprop=\"sameAs\">10.3390\/rs13020205<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/247695363.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Rounce DR.<\/span>, <span class=\"author\" itemprop=\"author\">Hock R.<\/span>, <span class=\"author\" itemprop=\"author\">McNabb RW.<\/span>, <span class=\"author\" itemprop=\"author\">Millan R.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Maussion F.<\/span>, <span class=\"author\" itemprop=\"author\">Mouginot J.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Shean DE.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/258172726?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Distributed Global Debris Thickness Estimates Reveal Debris Significantly Impacts Glacier Mass Balance<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_258172726\"><span itemprop=\"name\"><strong>Geophysical Research Letters<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_258172726\" \/><span itemprop=\"volumeNumber\">48<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>), Article No.: <span itemprop=\"pagination\">e2020GL091311<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_258172726\"><span itemprop=\"issn\">ISSN: 0094-8276<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1029\/2020GL091311' target='blank' itemprop=\"sameAs\">10.1029\/2020GL091311<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/258172726.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Scheinert M.<\/span>, <span class=\"author\" itemprop=\"author\">Mayer C.<\/span>, <span class=\"author\" itemprop=\"author\">Horwath M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Wendt A.<\/span>, <span class=\"author\" itemprop=\"author\">Steinhage D.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/260659369?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Der Arbeitskreis \"polargeod\u00e4sie und Glaziologie\"<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_260659369\"><span itemprop=\"name\"><strong>Polarforschung<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_260659369\" \/><span itemprop=\"volumeNumber\">89<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>), p. <span itemprop=\"pagination\">57-64<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_260659369\"><span itemprop=\"issn\">ISSN: 0032-2490<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/polf-89-57-2021' target='blank' itemprop=\"sameAs\">10.5194\/polf-89-57-2021<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/260659369.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Shahateet K.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Navarro F.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/263606657?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Geodetic Mass Balance of the South Shetland Islands Ice Caps, Antarctica, from Differencing TanDEM-X DEMs<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_263606657\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_263606657\" \/><span itemprop=\"volumeNumber\">13<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>), p. <span itemprop=\"pagination\">3408<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_263606657\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs13173408' target='blank' itemprop=\"sameAs\">10.3390\/rs13173408<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/263606657.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Sochor L.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/259284961?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Increased Ice Thinning over Svalbard measured by ICESat\/ICESat-2 Laser Altimetry<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_259284961\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_259284961\" \/><span itemprop=\"volumeNumber\">13<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>), Article No.: <span itemprop=\"pagination\">2089<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_259284961\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs13112089' target='blank' itemprop=\"sameAs\">10.3390\/rs13112089<\/a><br \/>URL: <a href='https:\/\/www.mdpi.com\/2072-4292\/13\/11\/2089' target='blank' itemprop=\"url\">https:\/\/www.mdpi.com\/2072-4292\/13\/11\/2089<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/259284961.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Sugiyama S.<\/span>, <span class=\"author\" itemprop=\"author\">Minowa M.<\/span>, <span class=\"author\" itemprop=\"author\">Fukamachi Y.<\/span>, <span class=\"author\" itemprop=\"author\">Hata S.<\/span>, <span class=\"author\" itemprop=\"author\">Yamamoto Y.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/tobias-sauter\">Sauter T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Schneider C.<\/span>, <span class=\"author\" itemprop=\"author\">Schaefer M.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/266113822?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Subglacial discharge controls seasonal variations in the thermal structure of a glacial lake in Patagonia<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_266113822\"><span itemprop=\"name\"><strong>Nature Communications<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_266113822\" \/><span itemprop=\"volumeNumber\">12<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>), Article No.: <span itemprop=\"pagination\">6301<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_266113822\"><span itemprop=\"issn\">ISSN: 2041-1723<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1038\/s41467-021-26578-0' target='blank' itemprop=\"sameAs\">10.1038\/s41467-021-26578-0<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/266113822.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Thomson L.<\/span>, <span class=\"author\" itemprop=\"author\">Brun F.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Zemp M.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/250569224?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Observational Assessments of Glacier Mass Changes at Regional and Global Level<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_250569224\"><span itemprop=\"name\"><strong>Frontiers in Earth Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_250569224\" \/><span itemprop=\"volumeNumber\">8<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>), Article No.: <span itemprop=\"pagination\">641710<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_250569224\"><span itemprop=\"issn\">ISSN: 2296-6463<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3389\/feart.2020.641710' target='blank' itemprop=\"sameAs\">10.3389\/feart.2020.641710<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/250569224.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Van Tricht L.<\/span>, <span class=\"author\" itemprop=\"author\">Huybrechts P.<\/span>, <span class=\"author\" itemprop=\"author\">Van Breedam J.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Rybak O.<\/span>, <span class=\"author\" itemprop=\"author\">Satylkanov R.<\/span>, <span class=\"author\" itemprop=\"author\">Ermenbaiev B.<\/span>, <span class=\"author\" itemprop=\"author\">Popovnin V.<\/span>, <span class=\"author\" itemprop=\"author\">Neyns R.<\/span>, <span class=\"author\" itemprop=\"author\">Paice CM.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/253932200?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Measuring and inferring the ice thickness distribution of four glaciers in the Tien Shan, Kyrgyzstan<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_253932200\"><span itemprop=\"name\"><strong>Journal of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_253932200\" \/><span itemprop=\"volumeNumber\">67<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>), p. <span itemprop=\"pagination\">269-286<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_253932200\"><span itemprop=\"issn\">ISSN: 0022-1430<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1017\/jog.2020.104' target='blank' itemprop=\"sameAs\">10.1017\/jog.2020.104<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/253932200.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Wendleder A.<\/span>, <span class=\"author\" itemprop=\"author\">Schmitt A.<\/span>, <span class=\"author\" itemprop=\"author\">Erbertseder T.<\/span>, <span class=\"author\" itemprop=\"author\">D'Angelo P.<\/span>, <span class=\"author\" itemprop=\"author\">Mayer C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/268933154?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Seasonal Evolution of Supraglacial Lakes on Baltoro Glacier From 2016 to 2020<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_268933154\"><span itemprop=\"name\"><strong>Frontiers in Earth Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_268933154\" \/><span itemprop=\"volumeNumber\">9<\/span><\/span>  (<span itemprop=\"datePublished\">2021<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_268933154\"><span itemprop=\"issn\">ISSN: 2296-6463<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3389\/feart.2021.725394' target='blank' itemprop=\"sameAs\">10.3389\/feart.2021.725394<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/268933154.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2020<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Ayala A.<\/span>, <span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\">Huss M.<\/span>, <span class=\"author\" itemprop=\"author\">Pellicciotti F.<\/span>, <span class=\"author\" itemprop=\"author\">Mcphee J.<\/span>, <span class=\"author\" itemprop=\"author\">Farinotti D.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/240546082?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Glacier runoff variations since 1955 in the Maipo River basin, in the semiarid Andes of central Chile<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_240546082\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_240546082\" \/><span itemprop=\"volumeNumber\">14<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), p. <span itemprop=\"pagination\">2005-2027<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_240546082\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-14-2005-2020' target='blank' itemprop=\"sameAs\">10.5194\/tc-14-2005-2020<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/240546082.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\">Ayala \u00c1.<\/span>, <span class=\"author\" itemprop=\"author\">Bravo C.<\/span>, <span class=\"author\" itemprop=\"author\">Vivero S.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Vijay S.<\/span>, <span class=\"author\" itemprop=\"author\">Schaefer M.<\/span>, <span class=\"author\" itemprop=\"author\">Buglio F.<\/span>, <span class=\"author\" itemprop=\"author\">Casassa G.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/239066385?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">60 years of glacier elevation and mass changes in the Maipo River Basin, central Andes of Chile<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_239066385\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_239066385\" \/><span itemprop=\"volumeNumber\">12<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), Article No.: <span itemprop=\"pagination\">1658<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_239066385\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs12101658' target='blank' itemprop=\"sameAs\">10.3390\/rs12101658<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/239066385.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/tobias-sauter\">Sauter T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Bannister D.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Casassa G.<\/span>, <span class=\"author\" itemprop=\"author\">Mayewski PA.<\/span>, <span class=\"author\" itemprop=\"author\">Turton J.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/234706433?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Detailed quantification of glacier elevation and mass changes in South Georgia<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_234706433\"><span itemprop=\"name\"><strong>Environmental Research Letters<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2020<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_234706433\"><span itemprop=\"issn\">ISSN: 1748-9326<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1088\/1748-9326\/ab6b32' target='blank' itemprop=\"sameAs\">10.1088\/1748-9326\/ab6b32<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/234706433.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\">Wilson R.<\/span>, <span class=\"author\" itemprop=\"author\">Bravo C.<\/span>, <span class=\"author\" itemprop=\"author\">Vivero S.<\/span>, <span class=\"author\" itemprop=\"author\">Caro A.<\/span>, <span class=\"author\" itemprop=\"author\">Shaw TE.<\/span>, <span class=\"author\" itemprop=\"author\">Casassa G.<\/span>, <span class=\"author\" itemprop=\"author\">Ayala A.<\/span>, <span class=\"author\" itemprop=\"author\">Mejias A.<\/span>, <span class=\"author\" itemprop=\"author\">Harrison S.<\/span>, <span class=\"author\" itemprop=\"author\">Glasser NF.<\/span>, <span class=\"author\" itemprop=\"author\">Mcphee J.<\/span>, <span class=\"author\" itemprop=\"author\">Wundrich O.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/243952083?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">A near 90-year record of the evolution of El Morado Glacier and its proglacial lake, Central Chilean Andes<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_243952083\"><span itemprop=\"name\"><strong>Journal of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_243952083\" \/><span itemprop=\"volumeNumber\">66<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), p. <span itemprop=\"pagination\">846-860<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_243952083\"><span itemprop=\"issn\">ISSN: 0022-1430<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1017\/jog.2020.52' target='blank' itemprop=\"sameAs\">10.1017\/jog.2020.52<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/243952083.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Friedl P.<\/span>, <span class=\"author\" itemprop=\"author\">Fluhrer A.<\/span>, <span class=\"author\" itemprop=\"author\">Weiser S.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/231182191?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Remote sensing of glacier and ice sheet grounding lines: A review<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_231182191\"><span itemprop=\"name\"><strong>Earth-Science Reviews<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_231182191\" \/><span itemprop=\"volumeNumber\">184<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_231182191\"><span itemprop=\"issn\">ISSN: 0012-8252<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.earscirev.2019.102948' target='blank' itemprop=\"sameAs\">10.1016\/j.earscirev.2019.102948<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/231182191.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Lippl S.<\/span>, <span class=\"author\" itemprop=\"author\">Blindow N.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Marinsek S.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/231201589?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Uncertainty Assessment of Ice Discharge Using GPR-Derived Ice Thickness from Gourdon Glacier, Antarctic Peninsula<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_231201589\"><span itemprop=\"name\"><strong>Geosciences<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_231201589\" \/><span itemprop=\"volumeNumber\">10<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), p. <span itemprop=\"pagination\">12<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_231201589\"><span itemprop=\"issn\">ISSN: 2076-3263<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/geosciences10010012' target='blank' itemprop=\"sameAs\">10.3390\/geosciences10010012<\/a><br \/>URL: <a href='https:\/\/www.mdpi.com\/2076-3263\/10\/1\/12' target='blank' itemprop=\"url\">https:\/\/www.mdpi.com\/2076-3263\/10\/1\/12<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/231201589.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Marderwald ER.<\/span>, <span class=\"author\" itemprop=\"author\">Arag\u00f3n Paz JM.<\/span>, <span class=\"author\" itemprop=\"author\">Richter AJ.<\/span>, <span class=\"author\" itemprop=\"author\">Busch P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Mendoza LPO.<\/span>, <span class=\"author\" itemprop=\"author\">Romero A.<\/span>, <span class=\"author\" itemprop=\"author\">Guerrero L.<\/span>, <span class=\"author\" itemprop=\"author\">Hormaechea JL.<\/span>, <span class=\"author\" itemprop=\"author\">Connon G.<\/span>, <span class=\"author\" itemprop=\"author\">Perdomo RA.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Groh A.<\/span>, <span class=\"author\" itemprop=\"author\">Horwath M.<\/span>, <span class=\"author\" itemprop=\"author\">Scheinert M.<\/span>, <span class=\"author\" itemprop=\"author\">Dietrich R.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/243600070?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Perito Moreno Glacier dam rupture - A recurrent natural experiment to probe solid-earth elasticity<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_243600070\"><span itemprop=\"name\"><strong>Journal of South American Earth Sciences<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_243600070\" \/><span itemprop=\"volumeNumber\">104<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), Article No.: <span itemprop=\"pagination\">102904<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_243600070\"><span itemprop=\"issn\">ISSN: 0895-9811<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.jsames.2020.102904' target='blank' itemprop=\"sameAs\">10.1016\/j.jsames.2020.102904<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/243600070.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Meier W.<\/span>, <span class=\"author\" itemprop=\"author\">Aravena JC.<\/span>, <span class=\"author\" itemprop=\"author\">Jana R.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Hochreuther P.<\/span>, <span class=\"author\" itemprop=\"author\">Soto-Rogel P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/jussi-griessinger\">Grie\u00dfinger J.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/246708171?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">A tree-ring delta O-18 series from southernmost Fuego-Patagonia is recording flavors of the Antarctic Oscillation<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_246708171\"><span itemprop=\"name\"><strong>Global and Planetary Change<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_246708171\" \/><span itemprop=\"volumeNumber\">195<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_246708171\"><span itemprop=\"issn\">ISSN: 0921-8181<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.gloplacha.2020.103302' target='blank' itemprop=\"sameAs\">10.1016\/j.gloplacha.2020.103302<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/246708171.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Petsch C.<\/span>, <span class=\"author\" itemprop=\"author\">Costa RM.<\/span>, <span class=\"author\" itemprop=\"author\">da ROSA KK.<\/span>, <span class=\"author\" itemprop=\"author\">Vieira R.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Sim\u00f5es JC.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/255665704?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Hydrological development and phenology of lakes of the fildes peninsula \u2013 Antarctica Desenvolvimento hidrol\u00f3gico e fenologia de lagos da pen\u00ednsula fildes \u2013 Ant\u00e1rtica<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_255665704\"><span itemprop=\"name\"><strong>Geociencias<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_255665704\" \/><span itemprop=\"volumeNumber\">39<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), p. <span itemprop=\"pagination\">559-572<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_255665704\"><span itemprop=\"issn\">ISSN: 0101-9082<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5016\/geociencias.v39i2.14453' target='blank' itemprop=\"sameAs\">10.5016\/geociencias.v39i2.14453<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/255665704.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Petsch C.<\/span>, <span class=\"author\" itemprop=\"author\">da Rosa KK.<\/span>, <span class=\"author\" itemprop=\"author\">Vieira R.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Costa RM.<\/span>, <span class=\"author\" itemprop=\"author\">Sim\u00f5es JC.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/255619727?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">The effects of climatic change on glacial, proglacial and paraglacial systems at Collins Glacier, King George Island, Antarctica, from the end of the little ice age to the 21st century Los efectos de los cambios clim\u00e1ticos en los sistemas glaciales, proglaciales y periglaciales del glaciar Collins, isla Rey Jorge, Ant\u00e1rtica, del final de la Peque\u00f1a Edad del Hielo al siglo XXI<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_255619727\"><span itemprop=\"name\"><strong>Investigaciones Geogr\u00e1ficas<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2020<\/span>), Article No.: <span itemprop=\"pagination\">e60153<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_255619727\"><span itemprop=\"issn\">ISSN: 0188-4611<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.14350\/RIG.60153' target='blank' itemprop=\"sameAs\">10.14350\/RIG.60153<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/255619727.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Schaefer M.<\/span>, <span class=\"author\" itemprop=\"author\">Fonseca-Gallardo D.<\/span>, <span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\">Casassa G.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/242418407?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Surface energy fluxes on Chilean glaciers: measurements and models<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_242418407\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_242418407\" \/><span itemprop=\"volumeNumber\">14<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), p. <span itemprop=\"pagination\">2545-2565<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_242418407\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-14-2545-2020' target='blank' itemprop=\"sameAs\">10.5194\/tc-14-2545-2020<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/242418407.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Schneider C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Schaefer M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/jussi-griessinger\">Grie\u00dfinger J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Casassa G.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/238009134?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Editorial: Climate Impacts on Glaciers and Biosphere in Fuego-Patagonia<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_238009134\"><span itemprop=\"name\"><strong>Frontiers in Earth Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_238009134\" \/><span itemprop=\"volumeNumber\">8<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), Article No.: <span itemprop=\"pagination\">91<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_238009134\"><span itemprop=\"issn\">ISSN: 2296-6463<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3389\/feart.2020.00091' target='blank' itemprop=\"sameAs\">10.3389\/feart.2020.00091<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/238009134.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Soruco A.<\/span>, <span class=\"author\" itemprop=\"author\">Rabatel A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/230599979?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Mass balance and area changes of glaciers in the Cordillera Real and Tres Cruces, Bolivia, between 2000 and 2016<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_230599979\"><span itemprop=\"name\"><strong>Journal of Glaciology<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2020<\/span>), p. <span itemprop=\"pagination\">1-13<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_230599979\"><span itemprop=\"issn\">ISSN: 0022-1430<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1017\/jog.2019.94' target='blank' itemprop=\"sameAs\">10.1017\/jog.2019.94<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/230599979.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Morgenshtern V.<\/span>, <span class=\"author\" itemprop=\"author\">H\u00fcbner F.<\/span>, <span class=\"author\" itemprop=\"author\">B\u00e4nsch E.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/246237244?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Novel Techniques for Void Filling in Glacier Elevation Change Data Sets<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_246237244\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_246237244\" \/><span itemprop=\"volumeNumber\">12<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), p. <span itemprop=\"pagination\">3917<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_246237244\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs12233917' target='blank' itemprop=\"sameAs\">10.3390\/rs12233917<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/246237244.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Silva AB.<\/span>, <span class=\"author\" itemprop=\"author\">Arigony-Neto J.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Espinoza JMA.<\/span>, <span class=\"author\" itemprop=\"author\">Costi J.<\/span>, <span class=\"author\" itemprop=\"author\">Jan\u00e3 R.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/229587757?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Spatial and temporal analysis of changes in the glaciers of the Antarctic Peninsula<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_229587757\"><span itemprop=\"name\"><strong>Global and Planetary Change<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_229587757\" \/><span itemprop=\"volumeNumber\">184<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), Article No.: <span itemprop=\"pagination\">103079<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_229587757\"><span itemprop=\"issn\">ISSN: 0921-8181<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.gloplacha.2019.103079' target='blank' itemprop=\"sameAs\">10.1016\/j.gloplacha.2019.103079<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/229587757.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Lippl S.<\/span>, <span class=\"author\" itemprop=\"author\">Zemp M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/240045608?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Rapid glacier retreat and downwasting throughout the European Alps in the early 21st century<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_240045608\"><span itemprop=\"name\"><strong>Nature Communications<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_240045608\" \/><span itemprop=\"volumeNumber\">11<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), Article No.: <span itemprop=\"pagination\">3209<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_240045608\"><span itemprop=\"issn\">ISSN: 2041-1723<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1038\/s41467-020-16818-0' target='blank' itemprop=\"sameAs\">10.1038\/s41467-020-16818-0<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/240045608.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Stadelmann C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thomas-moelg\">M\u00f6lg T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/244845748?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Brief communication: Glacier thickness reconstruction on Mt. Kilimanjaro<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_244845748\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_244845748\" \/><span itemprop=\"volumeNumber\">14<\/span><\/span>  (<span itemprop=\"datePublished\">2020<\/span>), p. <span itemprop=\"pagination\">3399-3406<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_244845748\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-14-3399-2020' target='blank' itemprop=\"sameAs\">10.5194\/tc-14-3399-2020<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/244845748.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2019<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/tobias-sauter\">Sauter T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Casassa G.<\/span>, <span class=\"author\" itemprop=\"author\">Soruco A.<\/span>, <span class=\"author\" itemprop=\"author\">Skvarca P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/211457114?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Constraining glacier elevation and mass changes in South America<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_211457114\"><span itemprop=\"name\"><strong>Nature Climate Change<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_211457114\" \/><span itemprop=\"volumeNumber\">9<\/span><\/span>  (<span itemprop=\"datePublished\">2019<\/span>), p. <span itemprop=\"pagination\">130\u2013136<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_211457114\"><span itemprop=\"issn\">ISSN: 1758-678X<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1038\/s41558-018-0375-7' target='blank' itemprop=\"sameAs\">10.1038\/s41558-018-0375-7<\/a><br \/>URL: <a href='https:\/\/www.nature.com\/articles\/s41558-018-0375-7?WT.feed_name=subjects_climate-sciences' target='blank' itemprop=\"url\">https:\/\/www.nature.com\/articles\/s41558-018-0375-7?WT.feed_name=subjects_climate-sciences<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/211457114.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Bravo C.<\/span>, <span class=\"author\" itemprop=\"author\">Bozkurt D.<\/span>, <span class=\"author\" itemprop=\"author\">Gonzalez-Reyes A.<\/span>, <span class=\"author\" itemprop=\"author\">Quincey DJ.<\/span>, <span class=\"author\" itemprop=\"author\">Ross AN.<\/span>, <span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\">Rojas M.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/216191911?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Assessing Snow Accumulation Patterns and Changes on the Patagonian Icefields<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_216191911\"><span itemprop=\"name\"><strong>Frontiers in Environmental Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_216191911\" \/><span itemprop=\"volumeNumber\">7<\/span><\/span>  (<span itemprop=\"datePublished\">2019<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_216191911\"><span itemprop=\"issn\">ISSN: 2296-665X<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3389\/fenvs.2019.00030' target='blank' itemprop=\"sameAs\">10.3389\/fenvs.2019.00030<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/216191911.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Burger F.<\/span>, <span class=\"author\" itemprop=\"author\">Ayala A.<\/span>, <span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\">Shaw TE.<\/span>, <span class=\"author\" itemprop=\"author\">Macdonell S.<\/span>, <span class=\"author\" itemprop=\"author\">Brock B.<\/span>, <span class=\"author\" itemprop=\"author\">Mcphee J.<\/span>, <span class=\"author\" itemprop=\"author\">Pellicciotti F.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/217021790?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Interannual variability in glacier contribution to runoff from a high-elevation Andean catchment: understanding the role of debris cover in glacier hydrology<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_217021790\"><span itemprop=\"name\"><strong>Hydrological Processes<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_217021790\" \/><span itemprop=\"volumeNumber\">33<\/span><\/span>  (<span itemprop=\"datePublished\">2019<\/span>), p. <span itemprop=\"pagination\">214-229<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_217021790\"><span itemprop=\"issn\">ISSN: 0885-6087<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1002\/hyp.13354' target='blank' itemprop=\"sameAs\">10.1002\/hyp.13354<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/217021790.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\">Vivero S.<\/span>, <span class=\"author\" itemprop=\"author\">Casassa G.<\/span>, <span class=\"author\" itemprop=\"author\">Schaefer M.<\/span>, <span class=\"author\" itemprop=\"author\">Burger F.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Iribarren-Anacona P.<\/span>, <span class=\"author\" itemprop=\"author\">Escobar F.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/210587464?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Geodetic Mass Balances and Area Changes of Echaurren Norte Glacier (Central Andes, Chile) between 1955 and 2015<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_210587464\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_210587464\" \/><span itemprop=\"volumeNumber\">11<\/span><\/span>  (<span itemprop=\"datePublished\">2019<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_210587464\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs11030260' target='blank' itemprop=\"sameAs\">10.3390\/rs11030260<\/a><br \/>URL: <a href='https:\/\/www.mdpi.com\/2072-4292\/11\/3\/260' target='blank' itemprop=\"url\">https:\/\/www.mdpi.com\/2072-4292\/11\/3\/260<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/210587464.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Franke A.<\/span>, <span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/achim-braeuning\">Br\u00e4uning A.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Rautio P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/228435681?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Remotely sensed estimation of vegetation shifts in the polar and alpine tree-line ecotone in Finnish Lapland during the last three decades<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_228435681\"><span itemprop=\"name\"><strong>Forest Ecology and Management<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_228435681\" \/><span itemprop=\"volumeNumber\">454<\/span><\/span>  (<span itemprop=\"datePublished\">2019<\/span>), Article No.: <span itemprop=\"pagination\">117668<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_228435681\"><span itemprop=\"issn\">ISSN: 0378-1127<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.foreco.2019.117668' target='blank' itemprop=\"sameAs\">10.1016\/j.foreco.2019.117668<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/228435681.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Friedl P.<\/span>, <span class=\"author\" itemprop=\"author\">Weiser F.<\/span>, <span class=\"author\" itemprop=\"author\">Fluhrer A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/228817111?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Remote sensing of glacier and ice sheet grounding lines: A review<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_228817111\"><span itemprop=\"name\"><strong>Earth-Science Reviews<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2019<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_228817111\"><span itemprop=\"issn\">ISSN: 0012-8252<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.earscirev.2019.102948' target='blank' itemprop=\"sameAs\">10.1016\/j.earscirev.2019.102948<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/228817111.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Lippl S.<\/span>, <span class=\"author\" itemprop=\"author\">Friedl P.<\/span>, <span class=\"author\" itemprop=\"author\">Kittel C.<\/span>, <span class=\"author\" itemprop=\"author\">Marinsek S.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/225257512?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Spatial and Temporal Variability of Glacier Surface Velocities and Outlet Areas on James Ross Island, Northern Antarctic Peninsula.<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_225257512\"><span itemprop=\"name\"><strong>Geosciences<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_225257512\" \/><span itemprop=\"volumeNumber\">9<\/span><\/span>  (<span itemprop=\"datePublished\">2019<\/span>), p. <span itemprop=\"pagination\">1-34<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_225257512\"><span itemprop=\"issn\">ISSN: 2076-3263<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/geosciences9090374' target='blank' itemprop=\"sameAs\">10.3390\/geosciences9090374<\/a><br \/>URL: <a href='https:\/\/www.mdpi.com\/2076-3263\/9\/9\/374' target='blank' itemprop=\"url\">https:\/\/www.mdpi.com\/2076-3263\/9\/9\/374<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/225257512.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Meier W.<\/span>, <span class=\"author\" itemprop=\"author\">Aravena JC.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/jussi-griessinger\">Grie\u00dfinger J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Hochreuther P.<\/span>, <span class=\"author\" itemprop=\"author\">Soto-Rogel P.<\/span>, <span class=\"author\" itemprop=\"author\">Zhu H.<\/span>, <span class=\"author\" itemprop=\"author\">De Pol-Holz R.<\/span>, <span class=\"author\" itemprop=\"author\">Schneider C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/226687324?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Late Holocene Glacial Fluctuations of Schiaparelli Glacier at Monte Sarmiento Massif, Tierra del Fuego (54 degrees 24 ' S)<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_226687324\"><span itemprop=\"name\"><strong>Geosciences<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_226687324\" \/><span itemprop=\"volumeNumber\">9<\/span><\/span>  (<span itemprop=\"datePublished\">2019<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_226687324\"><span itemprop=\"issn\">ISSN: 2076-3263<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/geosciences9080340' target='blank' itemprop=\"sameAs\">10.3390\/geosciences9080340<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/226687324.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/christian-sommer\">Sommer C.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Lippl S.<\/span>, <span class=\"author\" itemprop=\"author\">Cochachin A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/227597847?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Changes of the tropical glaciers throughout Peru between 2000 and 2016 - Mass balance and area fluctuations<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_227597847\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_227597847\" \/><span itemprop=\"volumeNumber\">13<\/span><\/span>  (<span itemprop=\"datePublished\">2019<\/span>), p. <span itemprop=\"pagination\">2537-2556<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_227597847\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-13-2537-2019' target='blank' itemprop=\"sameAs\">10.5194\/tc-13-2537-2019<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/227597847.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2018<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Costi J.<\/span>, <span class=\"author\" itemprop=\"author\">Arigony-Neto J.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Barrand N.<\/span>, <span class=\"author\" itemprop=\"author\">Mavlyudov B.<\/span>, <span class=\"author\" itemprop=\"author\">Da Silva AB.<\/span>, <span class=\"author\" itemprop=\"author\">Simoes JC.<\/span>, <span class=\"author\" itemprop=\"author\">Marques W.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/231183836?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Estimating surface melt and runoff on the Antarctic Peninsula using ERA-Interim reanalysis data<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_231183836\"><span itemprop=\"name\"><strong>Antarctic Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_231183836\" \/><span itemprop=\"volumeNumber\">30<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">379-393<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_231183836\"><span itemprop=\"issn\">ISSN: 0954-1020<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1017\/S0954102018000391' target='blank' itemprop=\"sameAs\">10.1017\/S0954102018000391<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/231183836.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Ewald M.<\/span>, <span class=\"author\" itemprop=\"author\">Aerts R.<\/span>, <span class=\"author\" itemprop=\"author\">Lenoir J.<\/span>, <span class=\"author\" itemprop=\"author\">Fassnacht F.<\/span>, <span class=\"author\" itemprop=\"author\">Nicolas M.<\/span>, <span class=\"author\" itemprop=\"author\">Skowronek S.<\/span>, <span class=\"author\" itemprop=\"author\">Piat J.<\/span>, <span class=\"author\" itemprop=\"author\">Honnay O.<\/span>, <span class=\"author\" itemprop=\"author\">Garzon-Lopez C.<\/span>, <span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\">Van De Kerchove R.<\/span>, <span class=\"author\" itemprop=\"author\">Somers B.<\/span>, <span class=\"author\" itemprop=\"author\">Hattab T.<\/span>, <span class=\"author\" itemprop=\"author\">Rocchini D.<\/span>, <span class=\"author\" itemprop=\"author\">Schmidtlein S.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/202691890?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">LiDAR derived forest structure data improves predictions of canopy N and P concentrations from imaging spectroscopy.<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202691890\"><span itemprop=\"name\"><strong>Remote Sensing of Environment<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_202691890\" \/><span itemprop=\"volumeNumber\">211<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">13-25<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202691890\"><span itemprop=\"issn\">ISSN: 0034-4257<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.rse.2018.03.038' target='blank' itemprop=\"sameAs\">10.1016\/j.rse.2018.03.038<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/202691890.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Ewald M.<\/span>, <span class=\"author\" itemprop=\"author\">Skowronek S.<\/span>, <span class=\"author\" itemprop=\"author\">Aerts R.<\/span>, <span class=\"author\" itemprop=\"author\">Dolos K.<\/span>, <span class=\"author\" itemprop=\"author\">Lenoir J.<\/span>, <span class=\"author\" itemprop=\"author\">Nicolas M.<\/span>, <span class=\"author\" itemprop=\"author\">Warrie J.<\/span>, <span class=\"author\" itemprop=\"author\">Hattab T.<\/span>, <span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\">Honnay O.<\/span>, <span class=\"author\" itemprop=\"author\">Garzon-Lopez C.<\/span>, <span class=\"author\" itemprop=\"author\">Decocq G.<\/span>, <span class=\"author\" itemprop=\"author\">Van De Kerchove R.<\/span>, <span class=\"author\" itemprop=\"author\">Somers B.<\/span>, <span class=\"author\" itemprop=\"author\">Rocchini D.<\/span>, <span class=\"author\" itemprop=\"author\">Schmidtlein S.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/202694207?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Analyzing remotely sensed structural and chemical canopy traits of a forest invaded by Prunus serotina over multiple spatial scales.<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202694207\"><span itemprop=\"name\"><strong>Biological Invasions<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_202694207\" \/><span itemprop=\"volumeNumber\">8<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">2257-2271<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202694207\"><span itemprop=\"issn\">ISSN: 1573-1464<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1007\/s10530-018-1700-9' target='blank' itemprop=\"sameAs\">10.1007\/s10530-018-1700-9<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/202694207.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\">Schmid T.<\/span>, <span class=\"author\" itemprop=\"author\">Faude U.<\/span>, <span class=\"author\" itemprop=\"author\">Sanchez-Carillo S.<\/span>, <span class=\"author\" itemprop=\"author\">Cirujano S.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/202560825?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Are remotely-sensed traits suitable for ecological analysis? A case study of long-term drought effects on Leaf Mass per Area of wetland vegetation<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202560825\"><span itemprop=\"name\"><strong>Ecological Indicators<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_202560825\" \/><span itemprop=\"volumeNumber\">88<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">232-240<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202560825\"><span itemprop=\"issn\">ISSN: 1470-160X<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.ecolind.2018.01.012' target='blank' itemprop=\"sameAs\">10.1016\/j.ecolind.2018.01.012<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/202560825.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Friedl P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Wendt A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Hoeppner K.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/210155185?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Recent dynamic changes on Fleming Glacier after the disintegration of Wordie Ice Shelf, Antarctic Peninsula<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_210155185\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2018<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_210155185\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-12-1347-2018' target='blank' itemprop=\"sameAs\">10.5194\/tc-12-1347-2018<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/210155185.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Navarro FJ.<\/span>, <span class=\"author\" itemprop=\"author\">Gillet-Chaulet F.<\/span>, <span class=\"author\" itemprop=\"author\">Huss M.<\/span>, <span class=\"author\" itemprop=\"author\">Moholdt G.<\/span>, <span class=\"author\" itemprop=\"author\">Fettweis X.<\/span>, <span class=\"author\" itemprop=\"author\">Lang C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Ai S.<\/span>, <span class=\"author\" itemprop=\"author\">Benham T.<\/span>, <span class=\"author\" itemprop=\"author\">Benn D.<\/span>, <span class=\"author\" itemprop=\"author\">Bj\u00f6rnsson H.<\/span>, <span class=\"author\" itemprop=\"author\">Dowdeswell J.<\/span>, <span class=\"author\" itemprop=\"author\">Grabiec M.<\/span>, <span class=\"author\" itemprop=\"author\">Kohler J.<\/span>, <span class=\"author\" itemprop=\"author\">Lavrentiev I.<\/span>, <span class=\"author\" itemprop=\"author\">Lindb\u00e4ck K.<\/span>, <span class=\"author\" itemprop=\"author\">Melvold K.<\/span>, <span class=\"author\" itemprop=\"author\">Pettersson R.<\/span>, <span class=\"author\" itemprop=\"author\">Rippin D.<\/span>, <span class=\"author\" itemprop=\"author\">Saintenoy A.<\/span>, <span class=\"author\" itemprop=\"author\">S\u00e1nchez-G\u00e1mez P.<\/span>, <span class=\"author\" itemprop=\"author\">Schuler T.<\/span>, <span class=\"author\" itemprop=\"author\">Sevestre H.<\/span>, <span class=\"author\" itemprop=\"author\">Vasilenko E.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/206307924?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">The ice\u2010free topography of Svalbard<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_206307924\"><span itemprop=\"name\"><strong>Geophysical Research Letters<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_206307924\" \/><span itemprop=\"volumeNumber\">45<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">11760-11769<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_206307924\"><span itemprop=\"issn\">ISSN: 0094-8276<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1029\/2018GL079734' target='blank' itemprop=\"sameAs\">10.1029\/2018GL079734<\/a><br \/>URL: <a href='https:\/\/agupubs.onlinelibrary.wiley.com\/action\/showCitFormats?doi=10.1029\/2018GL079734' target='blank' itemprop=\"url\">https:\/\/agupubs.onlinelibrary.wiley.com\/action\/showCitFormats?doi=10.1029\/2018GL079734<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/206307924.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/jussi-griessinger\">Grie\u00dfinger J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Langhamer L.<\/span>, <span class=\"author\" itemprop=\"author\">Schneider C.<\/span>, <span class=\"author\" itemprop=\"author\">Sa\u00df B.<\/span>, <span class=\"author\" itemprop=\"author\">Steger D.<\/span>, <span class=\"author\" itemprop=\"author\">Skvarca P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Meier W.<\/span>, <span class=\"author\" itemprop=\"author\">Srur AM.<\/span>, <span class=\"author\" itemprop=\"author\">Hochreuther P.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/216385511?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Imprints of climate signals in a 204 year \u03b418O tree-ring record of nothofagus pumilio from Perito Moreno Glacier, Southern Patagonia (50\u25e6S)<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_216385511\"><span itemprop=\"name\"><strong>Frontiers in Earth Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_216385511\" \/><span itemprop=\"volumeNumber\">6<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), Article No.: <span itemprop=\"pagination\">27<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_216385511\"><span itemprop=\"issn\">ISSN: 2296-6463<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3389\/feart.2018.00027' target='blank' itemprop=\"sameAs\">10.3389\/feart.2018.00027<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/216385511.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Iribarren-Anacona P.<\/span>, <span class=\"author\" itemprop=\"author\">Kinney J.<\/span>, <span class=\"author\" itemprop=\"author\">Schaefer M.<\/span>, <span class=\"author\" itemprop=\"author\">Harrison S.<\/span>, <span class=\"author\" itemprop=\"author\">Wilson R.<\/span>, <span class=\"author\" itemprop=\"author\">Segovia A.<\/span>, <span class=\"author\" itemprop=\"author\">Mazzorana B.<\/span>, <span class=\"author\" itemprop=\"author\">Guerra F.<\/span>, <span class=\"author\" itemprop=\"author\">Far\u00edas Barahona D.<\/span>, <span class=\"author\" itemprop=\"author\">Reynolds J.<\/span>, <span class=\"author\" itemprop=\"author\">Glasser N.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/212968686?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Glacier protection laws: Potential conflicts in managing glacial hazards and adapting to climate change<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_212968686\"><span itemprop=\"name\"><strong>Ambio<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_212968686\" \/><span itemprop=\"volumeNumber\">47<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">835-845<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_212968686\"><span itemprop=\"issn\">ISSN: 0044-7447<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1007\/s13280-018-1043-x' target='blank' itemprop=\"sameAs\">10.1007\/s13280-018-1043-x<\/a><br \/>URL: <a href='https:\/\/link.springer.com\/article\/10.1007\/s13280-018-1043-x' target='blank' itemprop=\"url\">https:\/\/link.springer.com\/article\/10.1007\/s13280-018-1043-x<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/212968686.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Jerosch K.<\/span>, <span class=\"author\" itemprop=\"author\">Pehlke H.<\/span>, <span class=\"author\" itemprop=\"author\">Monien P.<\/span>, <span class=\"author\" itemprop=\"author\">Scharf F.<\/span>, <span class=\"author\" itemprop=\"author\">Weber L.<\/span>, <span class=\"author\" itemprop=\"author\">Kuhn G.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Abele D.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/231182870?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Benthic meltwater fjord habitats formed by rapid glacier recession on King George Island, Antarctica<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_231182870\"><span itemprop=\"name\"><strong>Philosophical Transactions of the Royal Society A-Mathematical Physical and Engineering Sciences<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2018<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_231182870\"><span itemprop=\"issn\">ISSN: 1364-503X<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1098\/rsta.2017.0178' target='blank' itemprop=\"sameAs\">10.1098\/rsta.2017.0178<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/231182870.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Lippl S.<\/span>, <span class=\"author\" itemprop=\"author\">Vijay S.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/204136514?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Automatic delineation of debris-covered glaciers using InSAR coherence derived from X-, C- and L-band radar data: a case study of Yazgyl Glacier<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_204136514\"><span itemprop=\"name\"><strong>Journal of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_204136514\" \/><span itemprop=\"volumeNumber\">64<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">1\u201311<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_204136514\"><span itemprop=\"issn\">ISSN: 0022-1430<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1017\/jog.2018.70' target='blank' itemprop=\"sameAs\">10.1017\/jog.2018.70<\/a><br \/>URL: <a href='https:\/\/www.cambridge.org\/core\/journals\/journal-of-glaciology\/article\/automatic-delineation-of-debriscovered-glaciers-using-insar-coherence-derived-from-x-c-and-lband-radar-data-a-case-study-of-yazgyl-glacier\/CA054F73D1CDEB11C1F6491D71583066' target='blank' itemprop=\"url\">https:\/\/www.cambridge.org\/core\/journals\/journal-of-glaciology\/article\/automatic-delineation-of-debriscovered-glaciers-using-insar-coherence-derived-from-x-c-and-lband-radar-data-a-case-study-of-yazgyl-glacier\/CA054F73D1CDEB11C1F6491D71583066<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/204136514.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Magiera A.<\/span>, <span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\">Waldhardt R.<\/span>, <span class=\"author\" itemprop=\"author\">Wiesmair M.<\/span>, <span class=\"author\" itemprop=\"author\">Otte A.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/202559754?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Mapping plant functional groups in subalpine grassland of the Greater Caucasus<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202559754\"><span itemprop=\"name\"><strong>Mountain Research and Development<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_202559754\" \/><span itemprop=\"volumeNumber\">38<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">63-72<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202559754\"><span itemprop=\"issn\">ISSN: 0276-4741<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1659\/mrd-journal-d-17-00082.1' target='blank' itemprop=\"sameAs\">10.1659\/mrd-journal-d-17-00082.1<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/202559754.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/philipp-malz\">Malz P.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Meier W.<\/span>, <span class=\"author\" itemprop=\"author\">Casassa G.<\/span>, <span class=\"author\" itemprop=\"author\">Jana R.<\/span>, <span class=\"author\" itemprop=\"author\">Skvarca P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/206215857?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Elevation and mass changes of the southern Patagonia icefield derived from TanDEM-X and SRTM data<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_206215857\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_206215857\" \/><span itemprop=\"volumeNumber\">10<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), Article No.: <span itemprop=\"pagination\">188<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_206215857\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs10020188' target='blank' itemprop=\"sameAs\">10.3390\/rs10020188<\/a><br \/>URL: <a href='http:\/\/www.mdpi.com\/2072-4292\/10\/2\/188' target='blank' itemprop=\"url\">http:\/\/www.mdpi.com\/2072-4292\/10\/2\/188<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/206215857.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Meier W.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/jussi-griessinger\">Grie\u00dfinger J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Hochreuther P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/205730030?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">An updated multi-temporal glacier inventory for the Patagonian Andes with changes between the Little Ice Age and 2016<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_205730030\"><span itemprop=\"name\"><strong>Frontiers in Earth Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_205730030\" \/><span itemprop=\"volumeNumber\">6<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), Article No.: <span itemprop=\"pagination\">62<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_205730030\"><span itemprop=\"issn\">ISSN: 2296-6463<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3389\/feart.2018.00062' target='blank' itemprop=\"sameAs\">10.3389\/feart.2018.00062<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/205730030.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Rocchini D.<\/span>, <span class=\"author\" itemprop=\"author\">Bacaro G.<\/span>, <span class=\"author\" itemprop=\"author\">Chirici G.<\/span>, <span class=\"author\" itemprop=\"author\">Da Re D.<\/span>, <span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\">Foody GM.<\/span>, <span class=\"author\" itemprop=\"author\">Galluzzi M.<\/span>, <span class=\"author\" itemprop=\"author\">Garzon-Lopez C.<\/span>, <span class=\"author\" itemprop=\"author\">Gillespie T.<\/span>, <span class=\"author\" itemprop=\"author\">He KS.<\/span>, <span class=\"author\" itemprop=\"author\">Lenoir J.<\/span>, <span class=\"author\" itemprop=\"author\">Marcantonio M.<\/span>, <span class=\"author\" itemprop=\"author\">Nagendra H.<\/span>, <span class=\"author\" itemprop=\"author\">Ricotta C.<\/span>, <span class=\"author\" itemprop=\"author\">Rommel E.<\/span>, <span class=\"author\" itemprop=\"author\">Schmidtlein S.<\/span>, <span class=\"author\" itemprop=\"author\">Skidmore A.<\/span>, <span class=\"author\" itemprop=\"author\">Van De Kerchove R.<\/span>, <span class=\"author\" itemprop=\"author\">Wegmann M.<\/span>, <span class=\"author\" itemprop=\"author\">Rugani B.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/202688539?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Remotely sensed spatial heterogeneity as an exploratory tool for taxonomic and functional diversity studies.<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202688539\"><span itemprop=\"name\"><strong>Ecological Indicators<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_202688539\" \/><span itemprop=\"volumeNumber\">85<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">983-990<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202688539\"><span itemprop=\"issn\">ISSN: 1470-160X<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/202688539.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Rocchini D.<\/span>, <span class=\"author\" itemprop=\"author\">Luque S.<\/span>, <span class=\"author\" itemprop=\"author\">Pettorelli N.<\/span>, <span class=\"author\" itemprop=\"author\">Bastin L.<\/span>, <span class=\"author\" itemprop=\"author\">Doktor D.<\/span>, <span class=\"author\" itemprop=\"author\">Faedi N.<\/span>, <span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\">Feret JB.<\/span>, <span class=\"author\" itemprop=\"author\">Foody GM.<\/span>, <span class=\"author\" itemprop=\"author\">Gavish Y.<\/span>, <span class=\"author\" itemprop=\"author\">Godinho S.<\/span>, <span class=\"author\" itemprop=\"author\">Kunin WE.<\/span>, <span class=\"author\" itemprop=\"author\">Lausch A.<\/span>, <span class=\"author\" itemprop=\"author\">Leitao P.<\/span>, <span class=\"author\" itemprop=\"author\">Marcantonio M.<\/span>, <span class=\"author\" itemprop=\"author\">Neteler M.<\/span>, <span class=\"author\" itemprop=\"author\">Ricotta C.<\/span>, <span class=\"author\" itemprop=\"author\">Schmidtlein S.<\/span>, <span class=\"author\" itemprop=\"author\">Vihervaara P.<\/span>, <span class=\"author\" itemprop=\"author\">Wegmann M.<\/span>, <span class=\"author\" itemprop=\"author\">Nagendra H.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/202556101?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Measuring \u03b2-diversity by remote sensing: a challenge for biodiversity monitoring.<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202556101\"><span itemprop=\"name\"><strong>Methods in Ecology and Evolution<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_202556101\" \/><span itemprop=\"volumeNumber\">9<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">1787-1798<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_202556101\"><span itemprop=\"issn\">ISSN: 2041-210X<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1111\/2041-210x.12941' target='blank' itemprop=\"sameAs\">10.1111\/2041-210x.12941<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/202556101.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Cook A.<\/span>, <span class=\"author\" itemprop=\"author\">Silva A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/203616932?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Changes in glacier dynamics in the northern Antarctic Peninsula since 1985<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_203616932\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_203616932\" \/><span itemprop=\"volumeNumber\">12<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">577-594<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_203616932\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-12-577-2018' target='blank' itemprop=\"sameAs\">10.5194\/tc-12-577-2018<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/203616932.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Vijay S.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/231183292?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Early 21st century spatially detailed elevation changes of Jammu and Kashmir glaciers (Karakoram\u2013Himalaya)<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_231183292\"><span itemprop=\"name\"><strong>Global and Planetary Change<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_231183292\" \/><span itemprop=\"volumeNumber\">165<\/span><\/span>  (<span itemprop=\"datePublished\">2018<\/span>), p. <span itemprop=\"pagination\">137-146<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_231183292\"><span itemprop=\"issn\">ISSN: 0921-8181<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.gloplacha.2018.03.014' target='blank' itemprop=\"sameAs\">10.1016\/j.gloplacha.2018.03.014<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/231183292.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2017<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Vijay S.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/121980584?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Seasonal and interannual variability of Columbia Glacier, Alaska (2011-2016): Ice Velocity, Mass Flux, surface elevation and front position<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_121980584\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_121980584\" \/><span itemprop=\"volumeNumber\">9<\/span><\/span>  (<span itemprop=\"datePublished\">2017<\/span>), Article No.: <span itemprop=\"pagination\">635<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_121980584\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs9060635' target='blank' itemprop=\"sameAs\">10.3390\/rs9060635<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/121980584.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\">Somers B.<\/span>, <span class=\"author\" itemprop=\"author\">van der Linden S.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/108279644?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Optical trait indicators for remote sensing of plant species composition: predictive power and seasonal variability<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_108279644\"><span itemprop=\"name\"><strong>Ecological Indicators<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_108279644\" \/><span itemprop=\"volumeNumber\">73<\/span><\/span>  (<span itemprop=\"datePublished\">2017<\/span>), p. <span itemprop=\"pagination\">825-833<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_108279644\"><span itemprop=\"issn\">ISSN: 1470-160X<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/108279644.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Gillet-Chaulet F.<\/span>, <span class=\"author\" itemprop=\"author\">Benham T.<\/span>, <span class=\"author\" itemprop=\"author\">Dowdeswell J.<\/span>, <span class=\"author\" itemprop=\"author\">Grabiec M.<\/span>, <span class=\"author\" itemprop=\"author\">Navarro FJ.<\/span>, <span class=\"author\" itemprop=\"author\">Pettersson R.<\/span>, <span class=\"author\" itemprop=\"author\">Moholdt G.<\/span>, <span class=\"author\" itemprop=\"author\">Nuth C.<\/span>, <span class=\"author\" itemprop=\"author\">Sa\u00df B.<\/span>, <span class=\"author\" itemprop=\"author\">Aas K.<\/span>, <span class=\"author\" itemprop=\"author\">Fettweis X.<\/span>, <span class=\"author\" itemprop=\"author\">Lang C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/106706864?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Application of a two-step approach for mapping ice thickness to various glacier types on Svalbard<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_106706864\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_106706864\" \/><span itemprop=\"volumeNumber\">11<\/span><\/span>  (<span itemprop=\"datePublished\">2017<\/span>), p. <span itemprop=\"pagination\">2003-2032<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_106706864\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-11-2003-2017' target='blank' itemprop=\"sameAs\">10.5194\/tc-11-2003-2017<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/106706864.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Rankl M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Humbert A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/106346284?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Dynamic changes on the Wilkins Ice Shelf during the 2006-2009 retreat derived from satellite observations<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_106346284\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_106346284\" \/><span itemprop=\"volumeNumber\">11<\/span><\/span>  (<span itemprop=\"datePublished\">2017<\/span>), p. <span itemprop=\"pagination\">1199-1211<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_106346284\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-11-1199-2017' target='blank' itemprop=\"sameAs\">10.5194\/tc-11-1199-2017<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/106346284.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Wastlhuber R.<\/span>, <span class=\"author\" itemprop=\"author\">Hock R.<\/span>, <span class=\"author\" itemprop=\"author\">Kienholz C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/106347604?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Glacier changes in the Susitna Basin, Alaska, USA, (1951-2015) using GIS and remote sensing methods<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_106347604\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_106347604\" \/><span itemprop=\"volumeNumber\">9<\/span><\/span>  (<span itemprop=\"datePublished\">2017<\/span>), Article No.: <span itemprop=\"pagination\">85<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_106347604\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs9050478' target='blank' itemprop=\"sameAs\">10.3390\/rs9050478<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/106347604.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2016<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Vijay S.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/123711764?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Elevation change rates of glaciers in the Lahaul-Spiti (Western Himalaya, India) during 2000-2012 and 2012-2013<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_123711764\"><span itemprop=\"name\"><strong>Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_123711764\" \/><span itemprop=\"volumeNumber\">8<\/span><\/span>  (<span itemprop=\"datePublished\">2016<\/span>), Article No.: <span itemprop=\"pagination\">1038<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_123711764\"><span itemprop=\"issn\">ISSN: 2072-4292<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3390\/rs8121038' target='blank' itemprop=\"sameAs\">10.3390\/rs8121038<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/123711764.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Falk U.<\/span>, <span class=\"author\" itemprop=\"author\">Gieseke H.<\/span>, <span class=\"author\" itemprop=\"author\">Kotzur F.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/115326024?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Monitoring snow and ice surfaces on King George Island, Antarctic Peninsula, with high-resolution TerraSAR-X time series<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115326024\"><span itemprop=\"name\"><strong>Antarctic Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_115326024\" \/><span itemprop=\"volumeNumber\">28<\/span><\/span>  (<span itemprop=\"datePublished\">2016<\/span>), p. <span itemprop=\"pagination\">135-149<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115326024\"><span itemprop=\"issn\">ISSN: 0954-1020<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1017\/S0954102015000577' target='blank' itemprop=\"sameAs\">10.1017\/S0954102015000577<\/a><br \/>URL: <a href='http:\/\/journals.cambridge.org\/action\/displayAbstract?fromPage=online&aid=10200178&fileId=S0954102015000577' target='blank' itemprop=\"url\">http:\/\/journals.cambridge.org\/action\/displayAbstract?fromPage=online&aid=10200178&fileId=S0954102015000577<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/115326024.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\">Doktor D.<\/span>, <span class=\"author\" itemprop=\"author\">Schmidtlein S.<\/span>, <span class=\"author\" itemprop=\"author\">Skidmore A.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/109785104?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Mapping pollination types with remote sensing<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_109785104\"><span itemprop=\"name\"><strong>Journal of Vegetation Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_109785104\" \/><span itemprop=\"volumeNumber\">27<\/span><\/span>  (<span itemprop=\"datePublished\">2016<\/span>), p. <span itemprop=\"pagination\">999-1011<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_109785104\"><span itemprop=\"issn\">ISSN: 1100-9233<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/109785104.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/johannes-fuerst\">F\u00fcrst J.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Durand G.<\/span>, <span class=\"author\" itemprop=\"author\">Gillet-Chaulet F.<\/span>, <span class=\"author\" itemprop=\"author\">Tavard L.<\/span>, <span class=\"author\" itemprop=\"author\">Rankl M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Gagliardini O.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/115323164?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">The safety band of Antarctic ice shelves<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115323164\"><span itemprop=\"name\"><strong>Nature Climate Change<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_115323164\" \/><span itemprop=\"volumeNumber\">6<\/span><\/span>  (<span itemprop=\"datePublished\">2016<\/span>), p. <span itemprop=\"pagination\">479-482<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115323164\"><span itemprop=\"issn\">ISSN: 1758-678X<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1038\/nclimate2912' target='blank' itemprop=\"sameAs\">10.1038\/nclimate2912<\/a><br \/>URL: <a href='http:\/\/www.nature.com\/nclimate\/journal\/vaop\/ncurrent\/full\/nclimate2912.html' target='blank' itemprop=\"url\">http:\/\/www.nature.com\/nclimate\/journal\/vaop\/ncurrent\/full\/nclimate2912.html<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/115323164.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Lausch A.<\/span>, <span class=\"author\" itemprop=\"author\">Bannehr L.<\/span>, <span class=\"author\" itemprop=\"author\">Beckmann M.<\/span>, <span class=\"author\" itemprop=\"author\">Boehm C.<\/span>, <span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\">Heurich M.<\/span>, <span class=\"author\" itemprop=\"author\">Jung A.<\/span>, <span class=\"author\" itemprop=\"author\">Klenke R.<\/span>, <span class=\"author\" itemprop=\"author\">Neumann C.<\/span>, <span class=\"author\" itemprop=\"author\">Pause M.<\/span>, <span class=\"author\" itemprop=\"author\">Rocchini D.<\/span>, <span class=\"author\" itemprop=\"author\">Schaepman M.<\/span>, <span class=\"author\" itemprop=\"author\">Schmidtlein S.<\/span>, <span class=\"author\" itemprop=\"author\">Schulz K.<\/span>, <span class=\"author\" itemprop=\"author\">Selsam P.<\/span>, <span class=\"author\" itemprop=\"author\">Settele J.<\/span>, <span class=\"author\" itemprop=\"author\">Skidmore A.<\/span>, <span class=\"author\" itemprop=\"author\">Cord A.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/122742444?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Linking earth observation and taxonomic, structural and functional biodiversity: local to ecosystem perspectives<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_122742444\"><span itemprop=\"name\"><strong>Ecological Indicators<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_122742444\" \/><span itemprop=\"volumeNumber\">70<\/span><\/span>  (<span itemprop=\"datePublished\">2016<\/span>), p. <span itemprop=\"pagination\">317-339<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_122742444\"><span itemprop=\"issn\">ISSN: 1470-160X<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/122742444.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Mack B.<\/span>, <span class=\"author\" itemprop=\"author\">Roscher R.<\/span>, <span class=\"author\" itemprop=\"author\">Stenzel S.<\/span>, <span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\">Schmidtlein S.<\/span>, <span class=\"author\" itemprop=\"author\">Waske B.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/123355144?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Mapping raised bogs with an iterative one-class classification approach<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_123355144\"><span itemprop=\"name\"><strong>Isprs Journal of Photogrammetry and Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_123355144\" \/><span itemprop=\"volumeNumber\">120<\/span><\/span>  (<span itemprop=\"datePublished\">2016<\/span>), p. <span itemprop=\"pagination\">53-64<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_123355144\"><span itemprop=\"issn\">ISSN: 0924-2716<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/123355144.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Rankl M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/124246804?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Glacier elevation and mass changes over the central Karakoram region estimated from TanDEM-X and SRTM\/X-SAR digital elevation models<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_124246804\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_124246804\" \/><span itemprop=\"volumeNumber\">51<\/span><\/span>  (<span itemprop=\"datePublished\">2016<\/span>), p. <span itemprop=\"pagination\">273-281<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_124246804\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3189\/2016AoG71A024' target='blank' itemprop=\"sameAs\">10.3189\/2016AoG71A024<\/a><br \/>URL: <a href='http:\/\/www.ingentaconnect.com\/content\/igsoc\/agl\/pre-prints\/content-ings_agl_71a024' target='blank' itemprop=\"url\">http:\/\/www.ingentaconnect.com\/content\/igsoc\/agl\/pre-prints\/content-ings_agl_71a024<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/124246804.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Marinsek S.<\/span>, <span class=\"author\" itemprop=\"author\">Skvarca P.<\/span>, <span class=\"author\" itemprop=\"author\">van Wessem JM.<\/span>, <span class=\"author\" itemprop=\"author\">Reijmer C.<\/span>, <span class=\"author\" itemprop=\"author\">Seco JL.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/110084304?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Dynamic response of Sj\u00f6gren inlet glaciers, Antarctic Peninsula, to ice shelf breakup derived from multi-mission remote sensing time series<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_110084304\"><span itemprop=\"name\"><strong>Frontiers of Earth Science<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_110084304\" \/><span itemprop=\"volumeNumber\">4<\/span><\/span>  (<span itemprop=\"datePublished\">2016<\/span>), Article No.: <span itemprop=\"pagination\">66<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_110084304\"><span itemprop=\"issn\">ISSN: 2095-0195<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3389\/feart.2016.00066' target='blank' itemprop=\"sameAs\">10.3389\/feart.2016.00066<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/110084304.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Thonfeld F.<\/span>, <span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Menz G.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/123394304?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Robust Change Vector Analysis (RCVA) for multi-sensor very high resolution optical satellite data.<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_123394304\"><span itemprop=\"name\"><strong>International Journal of Applied Earth Observation and Geoinformation<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_123394304\" \/><span itemprop=\"volumeNumber\">50<\/span><\/span>  (<span itemprop=\"datePublished\">2016<\/span>), p. <span itemprop=\"pagination\">131-140<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_123394304\"><span itemprop=\"issn\">ISSN: 1569-8432<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/123394304.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Wiesmair M.<\/span>, <span class=\"author\" itemprop=\"author\">Feilhauer H.<\/span>, <span class=\"author\" itemprop=\"author\">Magiera A.<\/span>, <span class=\"author\" itemprop=\"author\">Otte A.<\/span>, <span class=\"author\" itemprop=\"author\">Waldhardt R.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/118006284?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Estimating vegetation cover from high-resolution satellite data to assess grassland degradation in the Georgian Caucasus<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_118006284\"><span itemprop=\"name\"><strong>Mountain Research and Development<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_118006284\" \/><span itemprop=\"volumeNumber\">36<\/span><\/span>  (<span itemprop=\"datePublished\">2016<\/span>), p. <span itemprop=\"pagination\">56-65<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_118006284\"><span itemprop=\"issn\">ISSN: 0276-4741<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1659\/MRD-JOURNAL-D-15-00064.1' target='blank' itemprop=\"sameAs\">10.1659\/MRD-JOURNAL-D-15-00064.1<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/118006284.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2015<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Kluegel T.<\/span>, <span class=\"author\" itemprop=\"author\">Hoeppner K.<\/span>, <span class=\"author\" itemprop=\"author\">Falk R.<\/span>, <span class=\"author\" itemprop=\"author\">Kuehmstedt E.<\/span>, <span class=\"author\" itemprop=\"author\">Ploetz C.<\/span>, <span class=\"author\" itemprop=\"author\">Reinhold A.<\/span>, <span class=\"author\" itemprop=\"author\">Ruelke A.<\/span>, <span class=\"author\" itemprop=\"author\">Wojdziak R.<\/span>, <span class=\"author\" itemprop=\"author\">Balss U.<\/span>, <span class=\"author\" itemprop=\"author\">Diedrich E.<\/span>, <span class=\"author\" itemprop=\"author\">Eineder M.<\/span>, <span class=\"author\" itemprop=\"author\">Henniger H.<\/span>, <span class=\"author\" itemprop=\"author\">Metzig R.<\/span>, <span class=\"author\" itemprop=\"author\">Steigenberger P.<\/span>, <span class=\"author\" itemprop=\"author\">Gisinger C.<\/span>, <span class=\"author\" itemprop=\"author\">Schuh H.<\/span>, <span class=\"author\" itemprop=\"author\">Boehm J.<\/span>, <span class=\"author\" itemprop=\"author\">Ojha R.<\/span>, <span class=\"author\" itemprop=\"author\">Kadler M.<\/span>, <span class=\"author\" itemprop=\"author\">Humbert A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Sun J.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/106346504?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Earth and space observation at the German Antarctic Receiving Station O'Higgins<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_106346504\"><span itemprop=\"name\"><strong>Polar Record<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_106346504\" \/><span itemprop=\"volumeNumber\">51<\/span><\/span>  (<span itemprop=\"datePublished\">2015<\/span>), p. <span itemprop=\"pagination\">590-610<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_106346504\"><span itemprop=\"issn\">ISSN: 0032-2474<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1017\/S0032247414000540' target='blank' itemprop=\"sameAs\">10.1017\/S0032247414000540<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/106346504.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Kl\u00fcgel T.<\/span>, <span class=\"author\" itemprop=\"author\">H\u00f6ppner K.<\/span>, <span class=\"author\" itemprop=\"author\">Falk R.<\/span>, <span class=\"author\" itemprop=\"author\">K\u00fchmstedt E.<\/span>, <span class=\"author\" itemprop=\"author\">Pl\u00f6tz C.<\/span>, <span class=\"author\" itemprop=\"author\">Reinhold A.<\/span>, <span class=\"author\" itemprop=\"author\">R\u00fclke A.<\/span>, <span class=\"author\" itemprop=\"author\">Wojdziak R.<\/span>, <span class=\"author\" itemprop=\"author\">Balss U.<\/span>, <span class=\"author\" itemprop=\"author\">Diedrich E.<\/span>, <span class=\"author\" itemprop=\"author\">Eineder M.<\/span>, <span class=\"author\" itemprop=\"author\">Henninger H.<\/span>, <span class=\"author\" itemprop=\"author\">Metzig R.<\/span>, <span class=\"author\" itemprop=\"author\">Steigenberger P.<\/span>, <span class=\"author\" itemprop=\"author\">Gisinger C.<\/span>, <span class=\"author\" itemprop=\"author\">Schuh H.<\/span>, <span class=\"author\" itemprop=\"author\">B\u00f6hm J.<\/span>, <span class=\"author\" itemprop=\"author\">Ojha R.<\/span>, <span class=\"author\" itemprop=\"author\">Kadler M.<\/span>, <span class=\"author\" itemprop=\"author\">Humbert A.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Sun J.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/115326464?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Earth observation in Antarctica \u2013 the German Antarctic Receiving Station GARS Oiggins<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115326464\"><span itemprop=\"name\"><strong>Polar Record<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_115326464\" \/><span itemprop=\"volumeNumber\">51<\/span><\/span>  (<span itemprop=\"datePublished\">2015<\/span>), p. <span itemprop=\"pagination\">590-610<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115326464\"><span itemprop=\"issn\">ISSN: 0032-2474<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1017\/S0032247414000540' target='blank' itemprop=\"sameAs\">10.1017\/S0032247414000540<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/115326464.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/thorsten-seehaus\">Seehaus T.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Marinsek S.<\/span>, <span class=\"author\" itemprop=\"author\">Helm V.<\/span>, <span class=\"author\" itemprop=\"author\">Skvarca P.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/111346444?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Changes in ice dynamics, elevation and mass discharge of Dinsmoor-Bombardier-Edgeworth glacier system, Antarctic Peninsula<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_111346444\"><span itemprop=\"name\"><strong>Earth and Planetary Science Letters<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_111346444\" \/><span itemprop=\"volumeNumber\">427<\/span><\/span>  (<span itemprop=\"datePublished\">2015<\/span>), p. <span itemprop=\"pagination\">125-135<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_111346444\"><span itemprop=\"issn\">ISSN: 0012-821X<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.epsl.2015.06.047' target='blank' itemprop=\"sameAs\">10.1016\/j.epsl.2015.06.047<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/111346444.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2014<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Osmanoglu B.<\/span>, <span class=\"author\" itemprop=\"author\">Navarro FJ.<\/span>, <span class=\"author\" itemprop=\"author\">Hock R.<\/span>, <span class=\"author\" itemprop=\"author\">Corcuera MI.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/108867264?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Surface velocity and mass balance of Livingston Island ice cap, Antarctica<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_108867264\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_108867264\" \/><span itemprop=\"volumeNumber\">8<\/span><\/span>  (<span itemprop=\"datePublished\">2014<\/span>), p. <span itemprop=\"pagination\">1807-1823<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_108867264\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-8-1807-2014' target='blank' itemprop=\"sameAs\">10.5194\/tc-8-1807-2014<\/a><br \/>URL: <a href='http:\/\/www.the-cryosphere.net\/8\/1807\/2014\/' target='blank' itemprop=\"url\">http:\/\/www.the-cryosphere.net\/8\/1807\/2014\/<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/108867264.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Rankl M.<\/span>, <span class=\"author\" itemprop=\"author\">Kienholz C.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/122118744?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Glacier changes in the Karakoram region mapped by multimission satellite imagery<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_122118744\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_122118744\" \/><span itemprop=\"volumeNumber\">8<\/span><\/span>  (<span itemprop=\"datePublished\">2014<\/span>), p. <span itemprop=\"pagination\">977-989<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_122118744\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-8-977-2014' target='blank' itemprop=\"sameAs\">10.5194\/tc-8-977-2014<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/122118744.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2013<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Moeler M.<\/span>, <span class=\"author\" itemprop=\"author\">Finkelnburg R.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Scherer D.<\/span>, <span class=\"author\" itemprop=\"author\">Schneider C.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/122683044?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Variability of the climatic mass balance of Vestfonna ice cap, northeastern Svalbard, 1979-2011<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_122683044\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_122683044\" \/><span itemprop=\"volumeNumber\">54<\/span><\/span>  (<span itemprop=\"datePublished\">2013<\/span>), p. <span itemprop=\"pagination\">254-264<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_122683044\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3189\/2013AoG63A407' target='blank' itemprop=\"sameAs\">10.3189\/2013AoG63A407<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/122683044.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">M\u00f6ller M.<\/span>, <span class=\"author\" itemprop=\"author\">Finkelnburg R.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Scherer D.<\/span>, <span class=\"author\" itemprop=\"author\">Schneider C.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/121391644?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Variability of the climatic mass balance of Vestfonna ice cap (northeastern Svalbard) in the period 1979\/1980 \u2013 2010\/2011<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_121391644\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_121391644\" \/><span itemprop=\"volumeNumber\">54<\/span><\/span>  (<span itemprop=\"datePublished\">2013<\/span>), p. <span itemprop=\"pagination\">254-264<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_121391644\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/121391644.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Osmanoglu B.<\/span>, <span class=\"author\" itemprop=\"author\">Navarro FJ.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Hock R.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/115331304?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Surface velocity and ice discharge of the ice cap on King George Island, Antarctica<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115331304\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_115331304\" \/><span itemprop=\"volumeNumber\">54<\/span><\/span>  (<span itemprop=\"datePublished\">2013<\/span>), p. <span itemprop=\"pagination\">111-119<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115331304\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3189\/2013AoG63A517' target='blank' itemprop=\"sameAs\">10.3189\/2013AoG63A517<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/115331304.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2012<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Burgess EW.<\/span>, <span class=\"author\" itemprop=\"author\">Forster RR.<\/span>, <span class=\"author\" itemprop=\"author\">Larsen CF.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/107344424?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Surge dynamics on Bering Glacier, Alaska, in 2008\u20132011<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_107344424\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_107344424\" \/><span itemprop=\"volumeNumber\">6<\/span><\/span>  (<span itemprop=\"datePublished\">2012<\/span>), p. <span itemprop=\"pagination\">1251-1262<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_107344424\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-6-1251-2012' target='blank' itemprop=\"sameAs\">10.5194\/tc-6-1251-2012<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/107344424.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Goodwin K.<\/span>, <span class=\"author\" itemprop=\"author\">Loso MG.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/118947004?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Glacial transport of human waste and survival of fecal bacteria on Mt. McKinley's Kahiltna glacier, Denali National Park, Alaska<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_118947004\"><span itemprop=\"name\"><strong>Arctic, Antarctic, and Alpine Research<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_118947004\" \/><span itemprop=\"volumeNumber\">44<\/span><\/span>  (<span itemprop=\"datePublished\">2012<\/span>), p. <span itemprop=\"pagination\">432-445<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_118947004\"><span itemprop=\"issn\">ISSN: 1523-0430<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1657\/1938-4246-44.4.432' target='blank' itemprop=\"sameAs\">10.1657\/1938-4246-44.4.432<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/118947004.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">McNabb R.<\/span>, <span class=\"author\" itemprop=\"author\">Hock R.<\/span>, <span class=\"author\" itemprop=\"author\">O'Neel S.<\/span>, <span class=\"author\" itemprop=\"author\">Rasmussen L.<\/span>, <span class=\"author\" itemprop=\"author\">Ahn Y.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Conway H.<\/span>, <span class=\"author\" itemprop=\"author\">Herreid S.<\/span>, <span class=\"author\" itemprop=\"author\">Joughin I.<\/span>, <span class=\"author\" itemprop=\"author\">Pfeffer W.<\/span>, <span class=\"author\" itemprop=\"author\">Smith B.<\/span>, <span class=\"author\" itemprop=\"author\">Truffer M.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/115334384?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Using surface velocities to calculate ice thickness and bed topography: A case study at Columbia Glacier, Alaska, USA<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115334384\"><span itemprop=\"name\"><strong>Journal of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_115334384\" \/><span itemprop=\"volumeNumber\">58<\/span><\/span>  (<span itemprop=\"datePublished\">2012<\/span>), p. <span itemprop=\"pagination\">1151-1164<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115334384\"><span itemprop=\"issn\">ISSN: 0022-1430<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3189\/2012JoG11J249' target='blank' itemprop=\"sameAs\">10.3189\/2012JoG11J249<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/115334384.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2011<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Braun Matthias, Pohjola V. A., Pettersson R, Moeller M., Finkelnburg R., Falk U., Scherer D., Schneider C.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/112873464?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Glacier frontal position changes of Vestfonna (Nordaustlandet, Svalbard)<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_112873464\"><span itemprop=\"name\"><strong>Geografiska Annaler Series A-Physical Geography<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2011<\/span>), p. <span itemprop=\"pagination\">-<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_112873464\"><span itemprop=\"issn\">ISSN: 0435-3676<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1111\/j.1468-0459.2011.00437.x' target='blank' itemprop=\"sameAs\">10.1111\/j.1468-0459.2011.00437.x<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/112873464.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Schneider C., Scherer D., Braun M.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/123712204?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Impact of climate change on the cryosphere of the polar regions Auswirkungen des Klimawandels auf die Kryosph\u00e4re in den Polargebieten<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_123712204\"><span itemprop=\"name\"><strong>Geographische Rundschau<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_123712204\" \/><span itemprop=\"volumeNumber\">63<\/span><\/span>  (<span itemprop=\"datePublished\">2011<\/span>), p. <span itemprop=\"pagination\">12-19<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_123712204\"><span itemprop=\"issn\">ISSN: 0016-7460<\/span><\/span><\/span><br \/>URL: <a href='https:\/\/www.scopus.com\/inward\/record.uri?partnerID=HzOxMe3b&amp;scp=83755196723&amp;origin=inward' target='blank' itemprop=\"url\">https:\/\/www.scopus.com\/inward\/record.uri?partnerID=HzOxMe3b&amp;scp=83755196723&amp;origin=inward<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/123712204.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">M\u00f6ller M.<\/span>, <span class=\"author\" itemprop=\"author\">M\u00f6ller R.<\/span>, <span class=\"author\" itemprop=\"author\">Beaudon E.<\/span>, <span class=\"author\" itemprop=\"author\">Mattila OP.<\/span>, <span class=\"author\" itemprop=\"author\">Finkelnburg R.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Luks B.<\/span>, <span class=\"author\" itemprop=\"author\">Jonsell U.<\/span>, <span class=\"author\" itemprop=\"author\">Scherer D.<\/span>, <span class=\"author\" itemprop=\"author\">Schneider C.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/119076144?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Snowpack characteristics of Vestfonna and De Geerfonna (Nordaustlandet, Svalbard) - a spatiotemporal analysis based on multiyear snow-pit data<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119076144\"><span itemprop=\"name\"><strong>Geografiska Annaler Series A-Physical Geography<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_119076144\" \/><span itemprop=\"volumeNumber\">93<\/span><\/span>  (<span itemprop=\"datePublished\">2011<\/span>), p. <span itemprop=\"pagination\">273-285<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119076144\"><span itemprop=\"issn\">ISSN: 0435-3676<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1111\/j.1468-0459.2011.00440.x' target='blank' itemprop=\"sameAs\">10.1111\/j.1468-0459.2011.00440.x<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/119076144.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Quincey D.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Bishop M.<\/span>, <span class=\"author\" itemprop=\"author\">Hewitt K.<\/span>, <span class=\"author\" itemprop=\"author\">Luckman A.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/119075704?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Karakoram glacier surge dynamics<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119075704\"><span itemprop=\"name\"><strong>Geophysical Research Letters<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_119075704\" \/><span itemprop=\"volumeNumber\">38<\/span><\/span>  (<span itemprop=\"datePublished\">2011<\/span>)<br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119075704\"><span itemprop=\"issn\">ISSN: 0094-8276<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1029\/2011GL049004' target='blank' itemprop=\"sameAs\">10.1029\/2011GL049004<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/119075704.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">R\u00fcckamp M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Suckro S.<\/span>, <span class=\"author\" itemprop=\"author\">Blindow N.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/119076364?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Observed glacial changes on the King George Island ice cap, Antarctica, in the last decade<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119076364\"><span itemprop=\"name\"><strong>Global and Planetary Change<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_119076364\" \/><span itemprop=\"volumeNumber\">79<\/span><\/span>  (<span itemprop=\"datePublished\">2011<\/span>), p. <span itemprop=\"pagination\">99-109<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119076364\"><span itemprop=\"issn\">ISSN: 0921-8181<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.gloplacha' target='blank' itemprop=\"sameAs\">10.1016\/j.gloplacha<\/a><br \/>URL: <a href='http:\/\/www.sciencedirect.com\/science\/article\/pii\/S0921818111001111' target='blank' itemprop=\"url\">http:\/\/www.sciencedirect.com\/science\/article\/pii\/S0921818111001111<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/119076364.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Schneider C.<\/span>, <span class=\"author\" itemprop=\"author\">Scherer D.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/121504504?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Auswirkungen des Klimawandels auf die Kryosph\u00e4re in den Polargebieten<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_121504504\"><span itemprop=\"name\"><strong>Geographische Rundschau<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_121504504\" \/><span itemprop=\"volumeNumber\">12<\/span><\/span>  (<span itemprop=\"datePublished\">2011<\/span>), p. <span itemprop=\"pagination\">-<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_121504504\"><span itemprop=\"issn\">ISSN: 0016-7460<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/121504504.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2010<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">R\u00fcckkamp M., Blindow N., Suckro S., Braun Matthias, Humbert A.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/117428124?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Dynamics of the ice cap on King George Island, Antarctica - field measurements and numerical simulations<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_117428124\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_117428124\" \/><span itemprop=\"volumeNumber\">55<\/span><\/span>  (<span itemprop=\"datePublished\">2010<\/span>), p. <span itemprop=\"pagination\">80-90<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_117428124\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3189\/172756410791392817' target='blank' itemprop=\"sameAs\">10.3189\/172756410791392817<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/117428124.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Blindow N., Suckro S., R\u00fcckamp M., Braun Matthias, Schindler M., Breuer B., Saurer H., Simoes J. C., Lange S.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/119068884?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Geometry and status of the King Georg Island ice cap, South Shetland Islands, Antarctica<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119068884\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_119068884\" \/><span itemprop=\"volumeNumber\">55<\/span><\/span>  (<span itemprop=\"datePublished\">2010<\/span>), p. <span itemprop=\"pagination\">103-109<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119068884\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/119068884.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Kurtz D., Schellberg J., Braun Matthias:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/116905624?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Ground and Satellite Based Assessment of Rangeland Management in Sub-Tropical Argentina<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_116905624\"><span itemprop=\"name\"><strong>Applied Geography<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_116905624\" \/><span itemprop=\"volumeNumber\">30<\/span><\/span>  (<span itemprop=\"datePublished\">2010<\/span>), p. <span itemprop=\"pagination\">210-220<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_116905624\"><span itemprop=\"issn\">ISSN: 0143-6228<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.apgeog.2009.01.006' target='blank' itemprop=\"sameAs\">10.1016\/j.apgeog.2009.01.006<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/116905624.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Humbert A.<\/span>, <span class=\"author\" itemprop=\"author\">Gross D.<\/span>, <span class=\"author\" itemprop=\"author\">M\u00fcller R.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">van der Wal RSD.<\/span>, <span class=\"author\" itemprop=\"author\">van den Broeke MR.<\/span>, <span class=\"author\" itemprop=\"author\">Vaughan DG.<\/span>, <span class=\"author\" itemprop=\"author\">van de Berg MJ.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/119068444?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Deformation and failure of the ice bridge on Wilkins Ice Shelf, Antarctica<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119068444\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_119068444\" \/><span itemprop=\"volumeNumber\">55<\/span><\/span>  (<span itemprop=\"datePublished\">2010<\/span>), p. <span itemprop=\"pagination\">49-55<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119068444\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.3189\/172756410791392709' target='blank' itemprop=\"sameAs\">10.3189\/172756410791392709<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/119068444.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2009<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Humbert A.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/119057444?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Recent retreat of Wilkins Ice Shelf reveals new insights in ice shelf break-up mechanisms<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119057444\"><span itemprop=\"name\"><strong>IEEE Geoscience and Remote Sensing Letters<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_119057444\" \/><span itemprop=\"volumeNumber\">2<\/span><\/span>  (<span itemprop=\"datePublished\">2009<\/span>), p. <span itemprop=\"pagination\">263-267<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119057444\"><span itemprop=\"issn\">ISSN: 1545-598X<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1109\/LGRS.2008.2011925' target='blank' itemprop=\"sameAs\">10.1109\/LGRS.2008.2011925<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/119057444.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Humbert A.<\/span>, <span class=\"author\" itemprop=\"author\">Moll A.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/119056784?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Changes of Wilkins Ice Shelf over the past 15 years and inferences on its stability<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119056784\"><span itemprop=\"name\"><strong>Cryosphere<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2009<\/span>), p. <span itemprop=\"pagination\">41-56<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119056784\"><span itemprop=\"issn\">ISSN: 1994-0416<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.5194\/tc-3-41-2009' target='blank' itemprop=\"sameAs\">10.5194\/tc-3-41-2009<\/a><br \/>URL: <a href='http:\/\/www.the-cryosphere.net\/3\/41\/2009\/tc-3-41-2009.html' target='blank' itemprop=\"url\">http:\/\/www.the-cryosphere.net\/3\/41\/2009\/tc-3-41-2009.html<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/119056784.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Waske B.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/117059184?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Classifier ensembles for land cover mapping with multi-spectral SAR imagery<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_117059184\"><span itemprop=\"name\"><strong>Isprs Journal of Photogrammetry and Remote Sensing<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_117059184\" \/><span itemprop=\"volumeNumber\">5<\/span><\/span>  (<span itemprop=\"datePublished\">2009<\/span>), p. <span itemprop=\"pagination\">450-457<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_117059184\"><span itemprop=\"issn\">ISSN: 0924-2716<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.isprsjprs.2009.01.003' target='blank' itemprop=\"sameAs\">10.1016\/j.isprsjprs.2009.01.003<\/a><br \/>URL: <a href='http:\/\/www.sciencedirect.com\/science\/article\/pii\/S0924271609000070' target='blank' itemprop=\"url\">http:\/\/www.sciencedirect.com\/science\/article\/pii\/S0924271609000070<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/117059184.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2008<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Humbert A.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/111118744?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Wilkins Ice Shelf break-up along failure zones<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_111118744\"><span itemprop=\"name\"><strong>Journal of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_111118744\" \/><span itemprop=\"volumeNumber\">188<\/span><\/span>  (<span itemprop=\"datePublished\">2008<\/span>), p. <span itemprop=\"pagination\">943-944<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_111118744\"><span itemprop=\"issn\">ISSN: 0022-1430<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/111118744.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\">Schellberg J.<\/span>, <span class=\"author\" itemprop=\"author\">Hill M.<\/span>, <span class=\"author\" itemprop=\"author\">Gerhards R.<\/span>, <span class=\"author\" itemprop=\"author\">Rothmund M.<\/span>, <span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/111863884?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Precision agriculture on grassland: applications, perspectives and constraints \u0096 a review<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_111863884\"><span itemprop=\"name\"><strong>European Journal of Agronomy<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_111863884\" \/><span itemprop=\"volumeNumber\">29<\/span><\/span>  (<span itemprop=\"datePublished\">2008<\/span>), p. <span itemprop=\"pagination\">59-71<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_111863884\"><span itemprop=\"issn\">ISSN: 1161-0301<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1016\/j.eja.2008.05.005' target='blank' itemprop=\"sameAs\">10.1016\/j.eja.2008.05.005<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/111863884.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2007<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Waske B., Braun Matthias, Menz G.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/117443964?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">An object-based speckle filter using multi-sensor remote sensing imagery<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_117443964\"><span itemprop=\"name\"><strong>IEEE Geoscience and Remote Sensing Letters<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_117443964\" \/><span itemprop=\"volumeNumber\">2<\/span><\/span>  (<span itemprop=\"datePublished\">2007<\/span>), p. <span itemprop=\"pagination\">231-235<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_117443964\"><span itemprop=\"issn\">ISSN: 1545-598X<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/117443964.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/sebastian-feick\">Feick S.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Kronholm K.<\/span>, <span class=\"author\" itemprop=\"author\">Schweizer J.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/111771924?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Field observations on spatial variability of surface hoar at the basin scale<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_111771924\"><span itemprop=\"name\"><strong>Journal of Geophysical Research F: Earth Surface<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_111771924\" \/><span itemprop=\"volumeNumber\">112<\/span><\/span>  (<span itemprop=\"datePublished\">2007<\/span>), p. <span itemprop=\"pagination\">-<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_111771924\"><span itemprop=\"issn\">ISSN: 0148-0227<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1029\/2006JF000587' target='blank' itemprop=\"sameAs\">10.1029\/2006JF000587<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/111771924.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2006<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Over M., Siegmund A., Braun Matthias, Menz G.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/112415644?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Monitoring of Land-use and Land-cover in North Rhine-Westphalia by Remote Sensing<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_112415644\"><span itemprop=\"name\"><strong>Geographische Rundschau International Edition<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_112415644\" \/><span itemprop=\"volumeNumber\">1<\/span><\/span>  (<span itemprop=\"datePublished\">2006<\/span>), p. <span itemprop=\"pagination\">50-55<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_112415644\"><span itemprop=\"issn\">ISSN: 1860-7098<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/112415644.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\"><span class=\"author\" itemprop=\"author\"><a href=\"\/person\/matthias-braun\">Braun M.<\/a><\/span>, <span class=\"author\" itemprop=\"author\">Hock R.<\/span>, <span class=\"author\" itemprop=\"author\">Thorsteinsson T.<\/span>, <span class=\"author\" itemprop=\"author\">de Woul M.<\/span>, <span class=\"author\" itemprop=\"author\">Johanesson T.<\/span>, <span class=\"author\" itemprop=\"author\">Halld\u00f3rsd\u00f3ttir S.<\/span>:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/119000244?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Firn layer impact on glacial runoff: a case study at Hofsj\u00f6kull, Iceland<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119000244\"><span itemprop=\"name\"><strong>Hydrological Processes<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_119000244\" \/><span itemprop=\"volumeNumber\">20<\/span><\/span>  (<span itemprop=\"datePublished\">2006<\/span>), p. <span itemprop=\"pagination\">2171-2185<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_119000244\"><span itemprop=\"issn\">ISSN: 0885-6087<\/span><\/span><\/span><br \/>DOI: <a href='https:\/\/doi.org\/10.1002\/hyp.6201' target='blank' itemprop=\"sameAs\">10.1002\/hyp.6201<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/119000244.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2005<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Schuler T., Hock J. M. , Elvehoy H., Braun Matthias, Brown I., Hagen J.-O.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/117442644?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Distributed mass balance modelling on Engabreen (Norway)<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_117442644\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_117442644\" \/><span itemprop=\"volumeNumber\">42<\/span><\/span>  (<span itemprop=\"datePublished\">2005<\/span>), p. <span itemprop=\"pagination\">395-401<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_117442644\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/117442644.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Siebert S., D\u00f6ll P., Hoogeveen J., Faures J.-M. , Frenken K., Feick Sebastian:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/115428984?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Development and validation of the global map of irrigation areas.<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115428984\"><span itemprop=\"name\"><strong>Hydrology and Earth System Sciences<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_115428984\" \/><span itemprop=\"volumeNumber\">9<\/span><\/span>  (<span itemprop=\"datePublished\">2005<\/span>), p. <span itemprop=\"pagination\">535-547<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_115428984\"><span itemprop=\"issn\">ISSN: 1027-5606<\/span><\/span><\/span><br \/>Open Access: <a href='http:\/\/www.hydrol-earth-syst-sci.net\/9\/535\/2005\/' target='blank' itemprop=\"sameAs\">http:\/\/www.hydrol-earth-syst-sci.net\/9\/535\/2005\/<\/a><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/115428984.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2004<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Weissteiner C., Braun Matthias, K\u00fchlbauch W.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/106648784?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Synergetic use of remote sensing and soilborne data for regional yield prediction of malting barley (Hordeum vulgare L.)<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_106648784\"><span itemprop=\"name\"><strong>EARSeL eProceedings<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_106648784\" \/><span itemprop=\"volumeNumber\">3<\/span><\/span>  (<span itemprop=\"datePublished\">2004<\/span>), p. <span itemprop=\"pagination\">347-353<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_106648784\"><span itemprop=\"issn\">ISSN: 1729-3782<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/106648784.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2002<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Braun Matthias, Simoes J. C., Vogt S., Bremer U.F., Saurer H., Aquino F.E.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/116768124?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">A new satellite image map of King George Island (South Shetland Islands, Antarctica)<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_116768124\"><span itemprop=\"name\"><strong>Polarforschung<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_116768124\" \/><span itemprop=\"volumeNumber\">71<\/span><\/span>  (<span itemprop=\"datePublished\">2002<\/span>), p. <span itemprop=\"pagination\">47-48<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_116768124\"><span itemprop=\"issn\">ISSN: 0032-2490<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/116768124.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Rau F., Braun Matthias:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/112187284?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">The regional distribution of the dry snow zone on the Antarctic Peninsula north of 70\u00b0S<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_112187284\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_112187284\" \/><span itemprop=\"volumeNumber\">34<\/span><\/span>  (<span itemprop=\"datePublished\">2002<\/span>), p. <span itemprop=\"pagination\">95-100<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_112187284\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/112187284.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2001<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Rau F., Braun Matthias, Friedrich M., Weber F., Go\u00dfmann H.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/117441104?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Radar glacier zones and their boundaries as indicators of glacier mass balance and climatic variability<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_117441104\"><span itemprop=\"name\"><strong>EARSeL eProceedings<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_117441104\" \/><span itemprop=\"volumeNumber\">1<\/span><\/span>  (<span itemprop=\"datePublished\">2001<\/span>), p. <span itemprop=\"pagination\">317-327<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_117441104\"><span itemprop=\"issn\">ISSN: 1729-3782<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/117441104.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Braun Matthias, Saurer H., Vogt S., Simoes J. C., Go\u00dfmann H.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/111914924?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">The influence of large-scale circulation on surface energy balance on the King George Island ice cap<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_111914924\"><span itemprop=\"name\"><strong>International Journal of Climatology<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_111914924\" \/><span itemprop=\"volumeNumber\">1<\/span><\/span>  (<span itemprop=\"datePublished\">2001<\/span>), p. <span itemprop=\"pagination\">21-36<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_111914924\"><span itemprop=\"issn\">ISSN: 0899-8418<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/111914924.bib\">Download<\/a><\/li>\n<\/ul>\n<h3>2000<\/h3>\n<ul class=\"cris-publications \" lang=\"en\">\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Braun Matthias, Schneider C.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/112332484?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Characteristics of summertime energy balance along the west coast of the Antarctic Peninsula<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_112332484\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2000<\/span>), p. <span itemprop=\"pagination\">179-183<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_112332484\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/112332484.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Braun Matthias, Rau F., Saurer H., Go\u00dfmann:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/113511464?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Development of radar glacier zones on the King George Island ice cap, Antarctica, during the austral summer 1996\/97 as observed by ERS2 SAR data<\/a><\/strong><\/span><span aria-hidden=\"true\" tabindex=\"-1\" class=\"oa-icon\" title=\"Open-Access-Publikation\"><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_113511464\"><span itemprop=\"name\"><strong>Annals of Glaciology<\/strong><\/span><\/span> (<span itemprop=\"datePublished\">2000<\/span>), p. <span itemprop=\"pagination\">357-363<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_113511464\"><span itemprop=\"issn\">ISSN: 0260-3055<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/113511464.bib\">Download<\/a><\/li>\n<li itemscope itemtype=\"http:\/\/schema.org\/ScholarlyArticle\">Rau F., Braun Matthias, Saurer H., Go\u00dfmann H., Kothe G., Weber F., Wunderle S., Ebel M., Beppler D.:<br \/><span class=\"title\" itemprop=\"name\"><strong><a href=\"https:\/\/cris.fau.de\/publications\/112033724?lang=en_GB\" title=\"Detailansicht in neuem Fenster &ouml;ffnen\">Monitoring multi-year snow cover dynamics on the Antarctic Peninsula<\/a><\/strong><\/span><br \/>In: <span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_112033724\"><span itemprop=\"name\"><strong>Polarforschung<\/strong><\/span><\/span> <span itemprop=\"isPartOf\" itemscope itemtype=\"http:\/\/schema.org\/PublicationVolume\"><link itemprop=\"isPartOf\" href=\"#periodical_112033724\" \/><span itemprop=\"volumeNumber\">1\/2<\/span><\/span>  (<span itemprop=\"datePublished\">2000<\/span>), p. <span itemprop=\"pagination\">27-40<\/span><br><span itemscope itemtype=\"http:\/\/schema.org\/Periodical\" itemid=\"#periodical_112033724\"><span itemprop=\"issn\">ISSN: 0032-2490<\/span><\/span><\/span><br \/>BibTeX: <a href=\"https:\/\/cris.fau.de\/bibtex\/publication\/112033724.bib\">Download<\/a><\/li>\n<\/ul>\n<\/div>\n<p><!--&#091;&#091;faukarte url=\"source\/5a77412a55d81\/layercontrol\/off\/layer\/RRZE.DE\/geolocation\/off\" width=\"100%\" height=\"200\"&#093;&#093;-->\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n\n<div class=\"shariff shariff-align-left shariff-widget-align-left\"><ul class=\"shariff-buttons theme-round orientation-horizontal buttonsize-small\"><li class=\"shariff-button whatsapp shariff-nocustomcolor shariff-mobile\" 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Informationen\" role=\"button\" rel=\"noopener \" class=\"shariff-link\" style=\"background-color:#fff; color:#fff\" target=\"_blank\"><span class=\"shariff-icon\"><svg width=\"32px\" height=\"20px\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\" viewBox=\"0 0 11 32\"><path fill=\"#999\" d=\"M11.4 24v2.3q0 0.5-0.3 0.8t-0.8 0.4h-9.1q-0.5 0-0.8-0.4t-0.4-0.8v-2.3q0-0.5 0.4-0.8t0.8-0.4h1.1v-6.8h-1.1q-0.5 0-0.8-0.4t-0.4-0.8v-2.3q0-0.5 0.4-0.8t0.8-0.4h6.8q0.5 0 0.8 0.4t0.4 0.8v10.3h1.1q0.5 0 0.8 0.4t0.3 0.8zM9.2 3.4v3.4q0 0.5-0.4 0.8t-0.8 0.4h-4.6q-0.4 0-0.8-0.4t-0.4-0.8v-3.4q0-0.4 0.4-0.8t0.8-0.4h4.6q0.5 0 0.8 0.4t0.4 0.8z\"\/><\/svg><\/span><\/a><\/li><\/ul><\/div>","protected":false},"excerpt":{"rendered":"<p>Our research focuses on aerial and satellite image analysis as well as geographic information systems. We use time series of optical earth observation systems in various spatial and spectral resolutions, from synthetic aperture radar systems(SAR) as well as other imaging and non-imaging sensors in combination with field measurements. 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