[{"id":1,"type":"laboratory","title":"British Antarctic Survey","institution":"BAS","country":"United Kingdom","city":"Cambridge","latitude":52.2053,"longitude":0.1218,"tags":"antarctica,glaciology,geophysics,marine,ocean,fieldwork","description":"Major UK polar research institute. Very strong target for Antarctic geophysics, ice sheets, ocean and climate.","url":"https://www.bas.ac.uk/","contact":"","deadline":"","source":"official","priority":10,"created_at":"2026-06-27T21:06:45.236437","quality_score":93,"quality_reason":"priority=10, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":2,"type":"laboratory","title":"Alfred Wegener Institute","institution":"AWI","country":"Germany","city":"Bremerhaven","latitude":53.5396,"longitude":8.5809,"tags":"arctic,antarctica,glaciology,marine biology,geophysics,ocean","description":"German polar and marine research institute. Excellent fit for ice + ocean + biology.","url":"https://www.awi.de/en.html","contact":"","deadline":"","source":"official","priority":10,"created_at":"2026-06-27T21:06:45.236437","quality_score":93,"quality_reason":"priority=10, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":3,"type":"laboratory","title":"University Centre in Svalbard","institution":"UNIS","country":"Norway","city":"Longyearbyen","latitude":78.2232,"longitude":15.6267,"tags":"svalbard,arctic,glaciers,fieldwork,cryosphere","description":"One of the best practical gateways to Arctic glacier fieldwork.","url":"https://www.unis.no/","contact":"","deadline":"","source":"official","priority":10,"created_at":"2026-06-27T21:06:45.236437","quality_score":93,"quality_reason":"priority=10, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":195,"type":"funding","title":"Erasmus+ Traineeships","institution":"European Union","country":"Europe","city":"","latitude":null,"longitude":null,"tags":"funding,internship,europe,student","description":"Potential route for funding an internship in another European country through her home institution.","url":"https://erasmus-plus.ec.europa.eu/","contact":"","deadline":"","source":"official","priority":10,"created_at":"2026-06-27T21:14:20.694103","quality_score":93,"quality_reason":"priority=10, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":4,"type":"laboratory","title":"iC3 Polar Research Centre","institution":"UiT","country":"Norway","city":"Tromsø","latitude":69.6492,"longitude":18.9553,"tags":"ice,ocean,biology,climate,methane,ecosystems","description":"Highly interdisciplinary centre linking ice, ocean, ecosystems, biogeochemistry and climate.","url":"https://ic3.uit.no/","contact":"","deadline":"","source":"official","priority":9,"created_at":"2026-06-27T21:06:45.236437","quality_score":93,"quality_reason":"priority=9, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":5,"type":"laboratory","title":"Institut des Géosciences de l’Environnement","institution":"IGE Grenoble","country":"France","city":"Grenoble","latitude":45.1885,"longitude":5.7245,"tags":"cryoseismology,glaciology,hydrology,alps,greenland","description":"Major French lab for glaciology, cryosphere and environmental geosciences.","url":"https://www.ige-grenoble.fr/","contact":"","deadline":"","source":"official","priority":9,"created_at":"2026-06-27T21:06:45.236437","quality_score":93,"quality_reason":"priority=9, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":6,"type":"laboratory","title":"ETH Zürich Glaciology","institution":"ETH Zürich","country":"Switzerland","city":"Zürich","latitude":47.3769,"longitude":8.5417,"tags":"glaciology,seismology,icequakes,modelling","description":"Top-level glacier research group, strong for glacier monitoring and ice dynamics.","url":"https://vaw.ethz.ch/en/research/glaciology.html","contact":"","deadline":"","source":"official","priority":9,"created_at":"2026-06-27T21:06:45.236437","quality_score":93,"quality_reason":"priority=9, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":7,"type":"laboratory","title":"Dublin Institute for Advanced Studies - Geophysics","institution":"DIAS","country":"Ireland","city":"Dublin","latitude":53.3498,"longitude":-6.2603,"tags":"ireland,seismology,geophysics,earth structure","description":"Best Irish entry point for seismology and geophysical methods.","url":"https://www.dias.ie/cosmicphysics/geophysics/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:06:45.236437","quality_score":93,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":10,"type":"laboratory","title":"Scott Polar Research Institute","institution":"University of Cambridge","country":"United Kingdom","city":"Cambridge","latitude":52.1986,"longitude":0.1192,"tags":"polar history,arctic,antarctica,glaciology","description":"Major polar institute with science, history and collections.","url":"https://www.spri.cam.ac.uk/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:06:45.236437","quality_score":93,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":11,"type":"laboratory","title":"GEUS","institution":"Geological Survey of Denmark and Greenland","country":"Denmark / Greenland","city":"Copenhagen","latitude":55.6761,"longitude":12.5683,"tags":"greenland,ice sheet,geology,climate","description":"Important institution for Greenland ice sheet and Arctic geoscience.","url":"https://eng.geus.dk/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:06:45.236437","quality_score":93,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":12,"type":"laboratory","title":"Norwegian Polar Institute","institution":"NPI","country":"Norway","city":"Tromsø","latitude":69.6492,"longitude":18.9553,"tags":"arctic,antarctica,polar science,fieldwork","description":"Norwegian national polar science institute.","url":"https://www.npolar.no/en/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:06:45.236437","quality_score":93,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":24,"type":"funding","title":"Erasmus+ traineeship","institution":"European Union","country":"Europe","city":"","latitude":null,"longitude":null,"tags":"funding,internship,student,europe","description":"Potential funding route for an internship through her university if eligible.","url":"https://erasmus-plus.ec.europa.eu/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:06:45.236437","quality_score":93,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":172,"type":"training","title":"International Summer School in Glaciology","institution":"University of Alaska Fairbanks","country":"United States","city":"McCarthy / Alaska","latitude":61.433,"longitude":-142.921,"tags":"summer school,glaciology,fieldwork,alaska","description":"Field-based glaciology school, useful for students wanting practical glacier experience.","url":"https://glaciers.gi.alaska.edu/courses/summer-school","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:14:20.694103","quality_score":93,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":173,"type":"training","title":"Arctic Field Summer Schools","institution":"UNIS","country":"Norway / Svalbard","city":"Longyearbyen","latitude":78.223,"longitude":15.626,"tags":"summer school,arctic,svalbard,fieldwork,glaciers","description":"UNIS regularly offers Arctic courses; good route for field exposure in Svalbard.","url":"https://www.unis.no/studies/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:14:20.694103","quality_score":93,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":199,"type":"funding","title":"SCAR Fellowships","institution":"SCAR","country":"International","city":"","latitude":null,"longitude":null,"tags":"funding,antarctica,early career,polar","description":"SCAR fellowships support early-career Antarctic research collaborations.","url":"https://scar.org/awards/fellowships/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:14:20.694103","quality_score":93,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":181,"type":"dataset","title":"NSIDC Glacier and Ice Data","institution":"NSIDC","country":"United States","city":"","latitude":null,"longitude":null,"tags":"dataset,cryosphere,glaciers,greenland,antarctica","description":"Key source for snow, ice, glacier and polar datasets.","url":"https://nsidc.org/data","contact":"","deadline":"","source":"official","priority":10,"created_at":"2026-06-27T21:14:20.694103","quality_score":88,"quality_reason":"priority=10, has_url, official_like_url, trusted_source, good_tags"},{"id":32,"type":"dataset","title":"NSIDC Data Search","institution":"NSIDC","country":"United States","city":"","latitude":null,"longitude":null,"tags":"dataset,cryosphere,glaciers,sea ice,polar","description":"Key portal for snow, ice, glacier and polar datasets.","url":"https://nsidc.org/data","contact":"","deadline":"","source":"official","priority":9,"created_at":"2026-06-27T21:06:45.236437","quality_score":88,"quality_reason":"priority=9, has_url, official_like_url, trusted_source, good_tags"},{"id":176,"type":"conference","title":"Cryosphere sessions at EGU","institution":"European Geosciences Union","country":"Europe","city":"Vienna","latitude":48.208,"longitude":16.373,"tags":"conference,cryosphere,glaciology,students,abstracts","description":"EGU Cryosphere sessions are highly relevant for internships, networking and PhD opportunities.","url":"https://www.egu.eu/meetings/","contact":"","deadline":"","source":"official","priority":9,"created_at":"2026-06-27T21:14:20.694103","quality_score":88,"quality_reason":"priority=9, has_url, official_like_url, trusted_source, good_tags"},{"id":178,"type":"conference","title":"International Glaciological Society Symposia","institution":"International Glaciological Society","country":"International","city":"","latitude":null,"longitude":null,"tags":"conference,glaciology,cryosphere,networking","description":"IGS events are central for glaciology and cryosphere communities.","url":"https://www.igsoc.org/symposia/","contact":"","deadline":"","source":"official","priority":9,"created_at":"2026-06-27T21:14:20.694103","quality_score":88,"quality_reason":"priority=9, has_url, official_like_url, trusted_source, good_tags"},{"id":183,"type":"dataset","title":"NASA Earthdata Cryosphere","institution":"NASA","country":"United States","city":"","latitude":null,"longitude":null,"tags":"dataset,nasa,cryosphere,remote sensing,ice","description":"NASA Earthdata access point for cryosphere-related datasets.","url":"https://www.earthdata.nasa.gov/topics/cryosphere","contact":"","deadline":"","source":"official","priority":9,"created_at":"2026-06-27T21:14:20.694103","quality_score":88,"quality_reason":"priority=9, has_url, official_like_url, trusted_source, good_tags"},{"id":187,"type":"dataset","title":"EarthScope / IRIS Seismic Data","institution":"EarthScope","country":"United States / International","city":"","latitude":null,"longitude":null,"tags":"dataset,seismology,waveforms,obsPy","description":"Main public access route for seismic waveform data useful for learning seismology workflows.","url":"https://www.earthscope.org/","contact":"","deadline":"","source":"official","priority":9,"created_at":"2026-06-27T21:14:20.694103","quality_score":88,"quality_reason":"priority=9, has_url, official_like_url, trusted_source, good_tags"},{"id":27,"type":"conference","title":"European Geosciences Union General Assembly","institution":"EGU","country":"Austria / Europe","city":"Vienna","latitude":48.2082,"longitude":16.3738,"tags":"conference,geoscience,cryosphere,students","description":"Major European geoscience conference with cryosphere sessions.","url":"https://www.egu.eu/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:06:45.236437","quality_score":88,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags"},{"id":29,"type":"conference","title":"International Glaciological Society events","institution":"IGS","country":"International","city":"","latitude":null,"longitude":null,"tags":"conference,glaciology,cryosphere","description":"Important network for glaciology meetings and symposia.","url":"https://www.igsoc.org/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:06:45.236437","quality_score":88,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags"},{"id":30,"type":"dataset","title":"IRIS / EarthScope seismic data","institution":"EarthScope","country":"International","city":"","latitude":null,"longitude":null,"tags":"dataset,seismology,waveforms,open data","description":"Public seismic waveform data useful for learning and research.","url":"https://www.earthscope.org/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:06:45.236437","quality_score":88,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags"},{"id":180,"type":"conference","title":"SCAR Open Science Conference","institution":"Scientific Committee on Antarctic Research","country":"International","city":"","latitude":null,"longitude":null,"tags":"conference,antarctica,polar,science","description":"Major Antarctic science conference and network.","url":"https://scar.org/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:14:20.694103","quality_score":88,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags"},{"id":188,"type":"dataset","title":"GEUS Greenland Data","institution":"GEUS","country":"Denmark / Greenland","city":"Copenhagen","latitude":55.676,"longitude":12.568,"tags":"dataset,greenland,ice sheet,geology","description":"Greenland geoscience and ice-sheet related resources.","url":"https://eng.geus.dk/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:14:20.694103","quality_score":88,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags"},{"id":189,"type":"software","title":"ESA SNAP","institution":"European Space Agency","country":"Europe","city":"","latitude":null,"longitude":null,"tags":"remote sensing,sentinel,satellite,software","description":"Useful for Sentinel satellite data processing and Earth observation workflows.","url":"https://step.esa.int/main/toolboxes/snap/","contact":"","deadline":"","source":"official","priority":8,"created_at":"2026-06-27T21:14:20.694103","quality_score":88,"quality_reason":"priority=8, has_url, official_like_url, trusted_source, good_tags"},{"id":9,"type":"laboratory","title":"UCC Environmental Research Institute","institution":"University College Cork","country":"Ireland","city":"Cork","latitude":51.8935,"longitude":-8.4913,"tags":"cork,environment,climate,marine","description":"UCC institute connecting environmental, climate and marine research.","url":"https://www.ucc.ie/en/eri/","contact":"","deadline":"","source":"official","priority":7,"created_at":"2026-06-27T21:06:45.236437","quality_score":88,"quality_reason":"priority=7, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":25,"type":"funding","title":"Marie Skłodowska-Curie Actions","institution":"European Union","country":"Europe","city":"","latitude":null,"longitude":null,"tags":"funding,research,phd,mobility","description":"More relevant later for PhD or research mobility.","url":"https://marie-sklodowska-curie-actions.ec.europa.eu/","contact":"","deadline":"","source":"official","priority":7,"created_at":"2026-06-27T21:06:45.236437","quality_score":88,"quality_reason":"priority=7, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":174,"type":"training","title":"ESA Earth Observation Training","institution":"European Space Agency","country":"Europe","city":"","latitude":null,"longitude":null,"tags":"training,satellite,remote sensing,cryosphere,sentinel","description":"Training resources for Earth observation and Sentinel data, useful for glacier mapping.","url":"https://eo4society.esa.int/training-education/","contact":"","deadline":"","source":"official","priority":7,"created_at":"2026-06-27T21:14:20.694103","quality_score":88,"quality_reason":"priority=7, has_url, official_like_url, trusted_source, good_tags, high_value_type"},{"id":1212,"type":"publication","title":"Surface ice texture mapping of Planpincieux glacier reveals spatial mechanical heterogeneities","institution":"Institut des Géosciences de l’Environnement","country":"France / Europe","city":"","latitude":null,"longitude":null,"tags":"hal,publication,france,open archive,alpin glacier,ice crystallographic texture,mechanical anisotropy","description":"Crystallographic textures or Crystal Preferred Orientations (CPO) of glacier ice significantly influence its mechanical behavior by transferring mechanical anisotropy from the single-crystal scale to the macroscopic scale. However, their spatial variability and impact on fluidity remain poorly constrained in temperate glaciers. This study presents a detailed mapping of surface crystallographic textures on the Planpincieux Glacier (Mont Blanc Massif, Italy), combining field measurements, surface velocity data, and numerical modeling to assess mechanical heterogeneities. Six sampling zones were analyzed using an Automatic Ice Texture Analyser (AITA), revealing distinct crystallographic texture patterns linked to local strain configurations and boundary conditions. Weak crystallographic textures in zones near the glacier margins and crevasse areas suggest limited viscous deformation, while stronger crystallographic textures indicate deformation under various shear boundary conditions with impact of dynamic recrystallization. The resulting textures are associated with a fluidity enhancement factor reaching up to 2.3 and a fluidity anisotropy up to 5.4. These findings underscore the importance of integrating texture impact into glacier flow models, particularly in temperate environments where recrystallization and complex stress regimes prevail.","url":"https://hal.science/hal-05465250v1","contact":"Thomas Chauve, Line Doucet, Maurine Montagnat, Olivier Gagliardini, Paolo Perret, William Boffelli, Pietro Di Sopra, Luca Mondardini","deadline":"2026","source":"HAL","priority":7,"created_at":"2026-06-27T21:42:24.757292","quality_score":88,"quality_reason":"priority=7, has_url, trusted_source, good_description, detailed_description, good_tags, has_contact_or_authors"},{"id":1213,"type":"publication","title":"QFuego-Patagonia: a comprehensive glacier-related dataset for Patagonia and Tierra del Fuego, South America","institution":"Géosciences Paris Saclay, Laboratorio de Glaciología, Dirección General de Aguas, Institut des Géosciences de l’Environnement","country":"France / Europe","city":"","latitude":null,"longitude":null,"tags":"hal,publication,france,open archive,glacial geology,glacier geophysics,glacier mapping,glacier mass balance,glacier monitoring","description":"Patagonia and Tierra del Fuego (Austral Andes) are the most glacierised regions in the Southern Hemisphere, where glaciers have experienced significant mass changes in recent decades. Understanding glacier–climate–water interactions is crucial for addressing future climate challenges. Open-access data play a key role in advancing geoscience research, improving models and assessing the impacts of hazards and sea-level rise impacts. Here, we present QFuego-Patagonia, a free glacier-related GIS dataset and web portal covering Patagonia and Tierra del Fuego, which provides essential geospatial information across four scientific topics: Glaciology, Atmosphere, Terrain Models, and Glacial Geology and Geomorphology. This initiative aims to foster interdisciplinary research and collaboration, synthesise current knowledge and establish an advanced glacier data repository that will be continuously updated as new data and insights become available.","url":"https://hal.science/hal-05442405v1","contact":"David Farías-Barahona, Matthias Braun, Marius Schaefer, Shin Sugiyama, Andrés Rivera, Gino Casassa, Valentina Peña-Santibañez, Johannes Fürst","deadline":"2025","source":"HAL","priority":7,"created_at":"2026-06-27T21:42:24.757292","quality_score":88,"quality_reason":"priority=7, has_url, trusted_source, good_description, detailed_description, good_tags, has_contact_or_authors"},{"id":1214,"type":"publication","title":"Tracking extinct glaciers in GLIMS","institution":"Institut des Géosciences de l’Environnement","country":"France / Europe","city":"","latitude":null,"longitude":null,"tags":"hal,publication,france,open archive,glacier hydrology glacier mass balance glacier mapping glacier monitoring,glacier monitoring,glacier mapping,glacier mass balance,glacier hydrology","description":"Global Land Ice Measurements from Space (GLIMS), an initiative to build and distribute a database of global glacier data, has recently begun to track glaciers that have recently disappeared. GLIMS provides a definition of “extinct” glaciers for our community, and the final determination of extinction is left to local experts. There are currently 181 glaciers in the GLIMS Glacier Database that are marked as “extinct”, though we recognize that there have been many more reported in the literature. GLIMS welcomes more submissions to make the list more complete.","url":"https://hal.inrae.fr/hal-05593984v1","contact":"Bruce H Raup, Liss Marie Andreassen, Dominic Boyer, Cymene Howe, Mauri Pelto, Antoine Rabatel","deadline":"2025","source":"HAL","priority":7,"created_at":"2026-06-27T21:42:24.757292","quality_score":88,"quality_reason":"priority=7, has_url, trusted_source, good_description, detailed_description, good_tags, has_contact_or_authors"},{"id":1215,"type":"publication","title":"Saharan dust impacts on the surface mass balance of Argentière Glacier (French Alps)","institution":"Centre national de recherches météorologiques, Institut des Géosciences de l’Environnement, Laboratory of Hydraulics, Hydrology and Glaciology, Centre national de recherches météorologiques","country":"France / Europe","city":"","latitude":null,"longitude":null,"tags":"hal,publication,france,open archive,","description":"<div><p>Saharan dust deposits frequently turn alpine glaciers orange and darken their surface. Together with other light-absorbing particles, mineral dust reduces snow albedo, increases snow melt rate, and lowers the surface mass balance of glaciers. Since the surface mass balance drives the evolution of alpine glaciers, assessing the impact of impurities helps to understand their current and future evolution. The location of impurities within the snowpack and their effect on snow albedo can be estimated through physical modelling. In this study, we quantified the impact of dust, taking into account mineral dust and black carbon in snow, on the Argentière Glacier over the period 2019-2022. Our results show that during the three years preceding 2022, the contribution of mineral dust to the annual decrease in surface mass balance was between 0.31-0.45 m w.e., while it reached the double in 2022 with 0.63 m w.e. [0.54, 0.69] (median, [Q10-Q90]), and up to 1.2 m w.e. [0.9, 1.4] at specific locations. The impact of dust in snow was unevenly distributed over the glacier, especially in 2022. The highest simulated impacts occurred where firn layers from previous years were exposed after the total melt of the snowpack of the previ-ous winter. The gravitational redistribution of the snow from avalanches was not taken into account, which can reduce the impact of dust at specific locations. Increasing the modelled scavenging efficiency of black carbon can double the impact of dust alone ","url":"https://hal.science/hal-05345050v1","contact":"Léon Roussel, Marie Dumont, Marion Réveillet, Delphine Six, Marin Kneib, Pierre Nabat, Kévin Fourteau, Diego Monteiro","deadline":"2025","source":"HAL","priority":7,"created_at":"2026-06-27T21:42:24.757292","quality_score":88,"quality_reason":"priority=7, has_url, trusted_source, good_description, detailed_description, good_tags, has_contact_or_authors"},{"id":1216,"type":"publication","title":"Review article: AntArchitecture – building an age–depth model from Antarctica's radiostratigraphy to explore ice-sheet evolution","institution":"Institut des Géosciences de l’Environnement, GSFC Cryospheric Sciences Laboratory, Met Office Hadley Centre, British Antarctic Survey","country":"France / Europe","city":"","latitude":null,"longitude":null,"tags":"hal,publication,france,open archive,glaciology,radar,isochrones,age,ice flow,model","description":"Radio-echo sounding (RES) has revealed an internal architecture within both the West and East Antarctic ice sheets that records their depositional, deformational and melting histories. Crucially, RES-imaged internal-reflecting horizons, tied to ice-core age–depth profiles, can be treated as isochrones that record the age–depth structure across the Antarctic ice sheets. These enable the reconstruction of past climate and ice dynamical processes on large scales, which are complementary to but more spatially extensive than commonly used proxy records (e.g. former ice limits constrained by cosmogenic dating or offshore sediment sequences) around Antarctica. We review the progress towards building a pan-Antarctic age–depth model from these data by first introducing the relevant RES datasets that have been acquired across Antarctica over the last 6 decades (focussing specifically on those that detected internal-reflecting horizons) and outlining the processing steps typically undertaken to visualise, trace and date (by intersection with ice cores or modelling) the RES-imaged isochrones. We summarise the scientific applications for which Antarctica's internal architecture has been used to date and present a pathway to expanding Antarctic radiostratigraphy across the continent to provide a benchmark for a wider range of investigations: (1) identification of optimal sites for retrieving new ice-core palaeoclimate records targeting different periods; (2) reconstruction of surface mass ","url":"https://hal.science/hal-05359455v1","contact":"Robert G Bingham, Julien A Bodart, Marie G P Cavitte, Ailsa Chung, Rebecca J Sanderson, Johannes C R Sutter, Olaf Eisen, Nanna B Karlsson","deadline":"2025","source":"HAL","priority":7,"created_at":"2026-06-27T21:42:24.757292","quality_score":88,"quality_reason":"priority=7, has_url, trusted_source, good_description, detailed_description, good_tags, has_contact_or_authors"},{"id":1217,"type":"publication","title":"Age, thinning and spatial origin of the Beyond EPICA ice from a 2.5D ice flow model","institution":"Institut des Géosciences de l’Environnement, British Antarctic Survey","country":"France / Europe","city":"","latitude":null,"longitude":null,"tags":"hal,publication,france,open archive,glaciology,ice cores,ice flow,chronology","description":"The Beyond EPICA Oldest Ice project is a European project that aims to retrieve a continuous ice core up to 1.5 Ma through deep drilling at Little Dome C (LDC), Antarctica. In order to determine the age of the ice at a given depth before the ice is analysed in detail, 1D numerical models are often employed. However, they do not take into account any effects due to horizontal ice flow. We present a 2.5D inverse model that determines the age–depth profile along a flow line from Dome C (DC) to LDC, which is assumed to be stable in time. This means that flow line features such as flow direction and dome location have not changed over the time period considered. The model is constrained by dated radar internal reflecting horizons. Surface velocity measurements are used to determine the flow line and flow tube width, which also allows the model to consider lateral divergence. This new inverse model therefore improves on the methods used by 1D models previously applied to the DC area. This 2.5D model uses a previously developed numerical scheme with the novelty being the inverse methods used to optimise multiple parameters by comparison to radar constraints. By inferring a mechanical ice thickness, the model predicts either the thickness of a basal layer of stagnant ice or a basal melt rate. Results show that the deepest ice at Beyond EPICA Little Dome C (BELDC) originates from around 15 km upstream. The threshold for ice useful for paleoclimatic reconstruction is 20 kyr m−1 (20 000","url":"https://hal.science/hal-05359448v1","contact":"Ailsa Chung, Frédéric Parrenin, Robert Mulvaney, Luca Vittuari, Massimo Frezzotti, Antonio Zanutta, David A Lilien, Marie G P Cavitte","deadline":"2025","source":"HAL","priority":7,"created_at":"2026-06-27T21:42:24.757292","quality_score":88,"quality_reason":"priority=7, has_url, trusted_source, good_description, detailed_description, good_tags, has_contact_or_authors"},{"id":1218,"type":"publication","title":"Surface mass balance monitoring of an alpine glacier using GNSS Interferometric Reflectometry","institution":"Institut des Géosciences de l’Environnement, Institut des Sciences de la Terre","country":"France / Europe","city":"","latitude":null,"longitude":null,"tags":"hal,publication,france,open archive,surface mass balance,mountain glaciers,ice and climate,gnss-ir,glacier modelling","description":"Assessing glacier surface mass balance (SMB) is essential for evaluating glacier response to climate change. However, traditional in situ measurement methods are labour intensive and often lack the temporal and spatial resolutions required to fully constrain SMB models. Here, we explore the potential of the Global Navigation Satellite System Interferometric Reflectometry (GNSS-IR) technique which exploits reflected satellite signals to track surface height changes for continuous SMB estimation. Using data from 13 GNSS stations operating between 2019 and 2021 on Glacier d’Argentière (French Alps), we compare GNSS-IR-derived SMB with estimates from snow pits, wooden stakes, continuous ice-melt measurements using a SmartStake device, and a degree-day model. We demonstrate that the GNSS-IR technique can reliably estimate SMB values that closely match independent in situ measurements, while also offering the advantages of spatial integration and long-term time series that capture both snowfall events and snow/ice melt. We show that glacier surface roughness and antenna height, when the glacier is snow-free, strongly influence uncertainties, which can be reduced to as little as 2 cm d −1 using a smoothing filter. Finally, we demonstrate that the GNSS-IR technique can further constrain the degree-day factor, particularly its temporal evolution throughout the ablation season.","url":"https://hal.inrae.fr/hal-05593991v1","contact":"Anuar Togaibekov, Florent Gimbert, Antoine Rabatel, Andrea Walpersdorf","deadline":"2025","source":"HAL","priority":7,"created_at":"2026-06-27T21:42:24.757292","quality_score":88,"quality_reason":"priority=7, has_url, trusted_source, good_description, detailed_description, good_tags, has_contact_or_authors"},{"id":1220,"type":"publication","title":"Impact of Interfacial Friction at the Ice‐Bed Boundary on Glacier Sliding","institution":"Institut des Géosciences de l’Environnement","country":"France / Europe","city":"","latitude":null,"longitude":null,"tags":"hal,publication,france,open archive,modeling in glaciology,glacier dynamics,friction law,glacier sliding","description":"Current theories for describing glacier sliding over hard beds assume that basal drag is entirely due to normal forces acting on meter‐scale bed roughness and neglect tangential friction at the ice‐bed interface. However, this interfacial friction is likely to account for a significant proportion of basal drag in the presence of basal debris or cold ice, and may render current sliding theories inaccurate. The aim of the study is to evaluate if current sliding laws still apply in the presence of interfacial friction. We propose a simplified analytical model of glacier sliding controlled by both ice creep around bed irregularities, as proposed by Weertman (1957, https://doi.org/10.3189/s0022143000024709 ), and interfacial friction at the ice‐bed boundary determined by Coulomb dependency. We show that reduced sliding speed from additional interfacial friction is mitigated by increased ice deformation near the bed, which occurs as a result of additional basal deviatoric stresses reducing the effective viscosity. We further generalize these results using a numerical model of glacier sliding over a sinusoidal bed, capable of simulating cavity formation and basal sliding with several formulations of interfacial friction. We find that the additional friction generally does not modify the form of previously proposed friction laws but significantly increases the maximum resistive shear stress of the bed. These results suggest that friction laws that are commonly used in ice‐sheet model","url":"https://hal.inrae.fr/hal-05210758v1","contact":"J P Roldán‐blasco, F. Gimbert, O. Gagliardini, A. Gilbert","deadline":"2025","source":"HAL","priority":7,"created_at":"2026-06-27T21:42:24.757292","quality_score":88,"quality_reason":"priority=7, has_url, trusted_source, good_description, detailed_description, good_tags, has_contact_or_authors"},{"id":13,"type":"researcher","title":"Florent Gimbert","institution":"IGE Grenoble","country":"France","city":"Grenoble","latitude":45.1885,"longitude":5.7245,"tags":"cryoseismology,glacier hydrology,seismic noise","description":"Strong contact for cryoseismology, glacier dynamics and subglacial hydrology.","url":"https://www.ige-grenoble.fr/","contact":"","deadline":"","source":"public profile","priority":10,"created_at":"2026-06-27T21:06:45.236437","quality_score":83,"quality_reason":"priority=10, has_url, official_like_url, good_tags, high_value_type"},{"id":14,"type":"researcher","title":"Fabian Walter","institution":"ETH Zürich","country":"Switzerland","city":"Zürich","latitude":47.3769,"longitude":8.5417,"tags":"icequakes,glacier seismology,calving","description":"Known for glacier seismology and icequake studies.","url":"https://vaw.ethz.ch/","contact":"","deadline":"","source":"public profile","priority":10,"created_at":"2026-06-27T21:06:45.236437","quality_score":83,"quality_reason":"priority=10, has_url, official_like_url, good_tags, high_value_type"},{"id":15,"type":"researcher","title":"Ugo Nanni","institution":"UNIS / Svalbard","country":"Norway","city":"Longyearbyen","latitude":78.2232,"longitude":15.6267,"tags":"cryoseismology,DAS,svalbard,icequakes","description":"Relevant for cryoseismology and fibre-optic glacier monitoring.","url":"https://www.unis.no/","contact":"","deadline":"","source":"public profile","priority":9,"created_at":"2026-06-27T21:06:45.236437","quality_score":83,"quality_reason":"priority=9, has_url, official_like_url, good_tags, high_value_type"},{"id":16,"type":"researcher","title":"Olaf Eisen","institution":"AWI","country":"Germany","city":"Bremerhaven","latitude":53.5396,"longitude":8.5809,"tags":"glaciology,radar,antarctica,greenland","description":"Polar glaciology researcher working on ice sheets and geophysical observations.","url":"https://www.awi.de/en/science/geosciences/glaciology.html","contact":"","deadline":"","source":"public profile","priority":9,"created_at":"2026-06-27T21:06:45.236437","quality_score":83,"quality_reason":"priority=9, has_url, official_like_url, good_tags, high_value_type"},{"id":17,"type":"researcher","title":"Jemma Wadham","institution":"Polar biogeochemistry","country":"United Kingdom","city":"Bristol","latitude":51.4545,"longitude":-2.5879,"tags":"biogeochemistry,glaciers,ecosystems,microbiology","description":"Excellent profile for glacier ecosystems, meltwater, carbon and polar biogeochemistry.","url":"https://research-information.bris.ac.uk/","contact":"","deadline":"","source":"public profile","priority":9,"created_at":"2026-06-27T21:06:45.236437","quality_score":83,"quality_reason":"priority=9, has_url, official_like_url, good_tags, high_value_type"},{"id":18,"type":"researcher","title":"Rob Larter","institution":"British Antarctic Survey","country":"United Kingdom","city":"Cambridge","latitude":52.2053,"longitude":0.1218,"tags":"marine geophysics,antarctica,ice sheet history","description":"Strong contact for marine geophysics and Antarctic glacial history.","url":"https://www.bas.ac.uk/","contact":"","deadline":"","source":"public profile","priority":8,"created_at":"2026-06-27T21:06:45.236437","quality_score":83,"quality_reason":"priority=8, has_url, official_like_url, good_tags, high_value_type"},{"id":36,"type":"software","title":"SNAP ESA Toolbox","institution":"European Space Agency","country":"Europe","city":"","latitude":null,"longitude":null,"tags":"software,satellite,remote sensing,sentinel","description":"Useful for Sentinel satellite data processing.","url":"https://step.esa.int/main/toolboxes/snap/","contact":"","deadline":"","source":"official","priority":7,"created_at":"2026-06-27T21:06:45.236437","quality_score":83,"quality_reason":"priority=7, has_url, official_like_url, trusted_source, good_tags"},{"id":1211,"type":"publication","title":"ODINN.jl: Scientific machine learning glacier modelling","institution":"Institut des Géosciences de l’Environnement, Department of Civil Engineering and Geosciences [Delft], Department of Statistics [Berkeley], Bristol Glaciology Centre","country":"France / Europe","city":"","latitude":null,"longitude":null,"tags":"hal,publication,france,open archive,differentiable programming,hydrology,scientific machine learning,climate,glaciers,julia","description":"`ODINN.jl` is a glacier model leveraging scientific machine learning (SciML) methods to perform forward and inverse simulations of large-scale glacier evolution. It can simulate both surface mass balance and ice flow dynamics through a modular architecture which enables the user to easily modify model components.","url":"https://hal.science/hal-05506928v1","contact":"Jordi Bolibar, Facundo Sapienza, Alban Gossard, Mathieu Le Séac'H, Lucille Gimenes, Vivek Gajadhar, Fabien Maussion, Ching-Yao Lai","deadline":"2026","source":"HAL","priority":7,"created_at":"2026-06-27T21:42:24.757292","quality_score":83,"quality_reason":"priority=7, has_url, trusted_source, good_description, good_tags, has_contact_or_authors"},{"id":1219,"type":"publication","title":"PERMAFROST TEMPERATURE AND ACTIVE-LAYER THICKNESS","institution":"Glaciology, Environnements, Dynamiques et Territoires de Montagne, ARPA Valle d'Aosta (Aosta Valley Regional Environmental Protection Agency)","country":"France / Europe","city":"","latitude":null,"longitude":null,"tags":"hal,publication,france,open archive,","description":"HAL publication metadata. Authors: Jeannette Noetzli, Hanne H Christiansen, Thomas Gallemann, Mauro Gugliemin, Filip Hrbacek, G. Hu, Ketil Isaksen, Florence Magnin. Year: 2025.","url":"https://hal.science/hal-05385776v1","contact":"Jeannette Noetzli, Hanne H Christiansen, Thomas Gallemann, Mauro Gugliemin, Filip Hrbacek, G. Hu, Ketil Isaksen, Florence Magnin","deadline":"2025","source":"HAL","priority":7,"created_at":"2026-06-27T21:42:24.757292","quality_score":83,"quality_reason":"priority=7, has_url, trusted_source, good_description, good_tags, has_contact_or_authors"},{"id":49,"type":"opportunity","title":"British Antarctic Survey","institution":"British Antarctic Survey Jobs","country":"United Kingdom","city":"","latitude":null,"longitude":null,"tags":"jobs,antarctica,bas,polar","description":"Potential opportunity found on British Antarctic Survey Jobs. Verify details, deadline and eligibility on the official page.","url":"https://www.bas.ac.uk/about/","contact":"","deadline":"","source":"https://www.bas.ac.uk/jobs/vacancies/","priority":6,"created_at":"2026-06-27T21:10:56.549880","quality_score":83,"quality_reason":"priority=6, has_url, official_like_url, good_description, good_tags, high_value_type"},{"id":50,"type":"opportunity","title":"Polar science","institution":"British Antarctic Survey Jobs","country":"United Kingdom","city":"","latitude":null,"longitude":null,"tags":"jobs,antarctica,bas,polar","description":"Potential opportunity found on British Antarctic Survey Jobs. Verify details, deadline and eligibility on the official page.","url":"https://www.bas.ac.uk/science/","contact":"","deadline":"","source":"https://www.bas.ac.uk/jobs/vacancies/","priority":6,"created_at":"2026-06-27T21:10:56.549880","quality_score":83,"quality_reason":"priority=6, has_url, official_like_url, good_description, good_tags, high_value_type"},{"id":51,"type":"opportunity","title":"UK Polar Data Centre","institution":"British Antarctic Survey Jobs","country":"United Kingdom","city":"","latitude":null,"longitude":null,"tags":"jobs,antarctica,bas,polar","description":"Potential opportunity found on British Antarctic Survey Jobs. Verify details, deadline and eligibility on the official page.","url":"https://www.bas.ac.uk/data/polar-data-centre/","contact":"","deadline":"","source":"https://www.bas.ac.uk/jobs/vacancies/","priority":6,"created_at":"2026-06-27T21:10:56.549880","quality_score":83,"quality_reason":"priority=6, has_url, official_like_url, good_description, good_tags, high_value_type"}]