SU
Member Since 2014
Sebastian Uhlemann
Professor of Environmental Geophysics, University of Bremen
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Advancing the Understanding of Snow Accumulation, Melting, and Associated Thermal Insulation Using Spatially Dense Snow Depth and Temperature Time Series
GEOPHYSICAL RESEARCH LETTERS
18 april 2025
Chen Wang, Ian Shirley, Stijn Wielandt, Sylvain Fi...
Snow thermal insulation is a critical factor influencing ground thermal dynamics and associated biogeochemical processes. We analyzed the spatiotem...
Disentangling the Impacts of Microtopography and Shrub Distribution on Snow Depth in a Subarctic Watershed: Toward a Predictive Understanding of Snow Spatial Variability
JOURNAL OF GEOPHYSICAL RESEARCH: BIOGEOSCIENCES
12 april 2025
Ian Shirley, Sebastian Uhlemann, John Peterson, Ka...
Snow plays a critical role in carbon cycling, vegetation dynamics, and permafrost hydrology at high latitudes by influencing surface energy exchang...
Assessing Forest Health and Functional Trait Variability in Response to Disturbances in the East River and Taylor Watersheds
EARTH OBSERVATION–BASED METHODS TO MONITOR FOREST LOSS, DEGRADATION, AND GROWTH III POSTER
global environmental change | 13 december 2024
Nicola Falco, Matthias Sprenger, Cesar Hinojo, Bri...
Forest decline due to pulse and press disturbances has been observed in mountainous watershed ecosystems, affecting species diversity, composition, as...
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Quantifying the Impacts of Snow Dynamics and Subsurface Structure on Hydrology in Mountainous Hillslopes Through Field and Modeling Investigations
ADVANCING UNDERSTANDING OF MOUNTAINOUS CRITICAL ZONES THROUGH OBSERVATIONS AND NUMERICAL EXPERIMENTS POSTER
hydrology | 11 december 2024
Lijing Wang, Zexuan Xu, Chen Wang, Robin Thibaut, ...
Hillslopes play a crucial role in headwater streams within mountainous watersheds. Understanding the individual and combined impacts of hillslope syst...
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Supporting hydrological model development of a former Uranium Milling Site using multi-method geophysical imaging and AI
ADVANCES IN MULTIMETHOD GEOPHYSICAL DATA INTERPRETATION AND OTHER APPLICATIONS OF MACHINE LEARNING I ORAL
near surface geophysics | 10 december 2024
Sebastian Uhlemann, Craig Ulrich, Peter Schillig, ...
Long-term management of contaminated sites requires a predictive understanding of the hydrological processes determining the fate and transport of the...
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Integrated geophysical imaging to study the impacts of fractured bedrock on watershed hydrology
MECHANISMS OF PROGRESSIVE ROCK FAILURE AND FRICTION ACROSS TIME AND SPACE I ORAL
mineral and rock physics | 09 december 2024
Sebastian Uhlemann, Baptiste Dafflon, Kenneth H. W...
Quantification of bedrock properties is critical for predicting the hydrologic response of watersheds to climate perturbations. Estimation of bedrock ...
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Variations in Bedrock and Vegetation Cover Modulate Subsurface Water Flow Dynamics of a Mountainous Hillslope
WATER RESOURCES RESEARCH
11 february 2024
Sebastian Uhlemann, Luca Peruzzo, Chunwei Chou, Ke...
Predicting the hydrological response of watersheds to climate disturbances requires a detailed understanding of the processes connecting hillslopes...
High‐Resolution Maps of Near‐Surface Permafrost for Three Watersheds on the Seward Peninsula, Alaska Derived From Machine Learning
EARTH AND SPACE SCIENCE
19 december 2023
Evan Thaler, Sebastian Uhlemann, Joel C. Rowland, ...
Permafrost soils are a critical component of the global carbon cycle and are locally important because they regulate the hydrologic flux from uplan...