Permafrost melting in the arctic region of Svalbard, Norway.Credit:Jeff Vanuga/Getty
HiPERC Team Publications
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Burn, C.R., Bartsch, A., Chakraborty, E., Das, S., Frauenfelder, R., Gärtner-Roer, I., Gisnås, K.G.,... & Yarmak, E.(2024). Developments in Permafrost Science and Engineering in Response to Climate Warming in Circumpolar and High Mountain Regions, 2019–2024. Permafrost and Periglacial Processes, 22(61), 1-22.
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Brombierstäudl, D., Schmidt, S., Soheb, M., & Nüsser, M. (2024). Aufeis thickness and volume estimations from stereo satellite imagery and terrestrial photographs: Evidence from Central Ladakh, India. Science of The Total Environment, 954, 176180.
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Schmitt, T., Brombierstäudl, D., Schmidt, S., & Nüsser, M. (2024). Giant Aufeis in the Pangong Tso Basin: Inventory of a Neglected Cryospheric Component in Eastern Ladakh and Western Tibet. Atmosphere, 15(3), 263.
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van Tiel, M., Aubry-Wake, C., Somers, L., Andermann, C., Avanzi, F., Baraer, M., ... & Yapiyev, V. (2024). Cryosphere–groundwater connectivity is a missing link in the mountain water cycle. Nature Water, 2(7), 624-637.
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Brombierstäudl, D., Schmidt, S., & Nüsser, M. (2023). Spatial and temporal dynamics of aufeis in the Tso Moriri basin, eastern Ladakh, India. Permafrost and Periglacial Processes, 34(1), 81-93.
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Brombierstäudl, D., Schmidt, S., & Nüsser, M. (2021). Distribution and relevance of aufeis (icing) in the Upper Indus Basin. Science of The Total Environment, 780, 146604.