JJ
Member Since 1994
Jennifer M. Jacobs
Professor, University of New Hampshire Main Campus
AGU Research
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Identifying Hydrated Compounds in Martian Analog Hypersaline Systems Using Hyperspectral Uncrewed Aerial Systems (UAS)
AQUEOUS PROCESSES ACROSS OUR SOLAR SYSTEM: INTERPRETING HOW WATER SHAPES TERRESTRIAL AND PLANETARY SURFACES AT DIFFERENT SPATIAL SCALES II POSTER
earth and planetary surface processes | 13 december 2024
Andrew Fleming, Jennifer M. Jacobs, Jacob Buffo, J...
Due to the necessity of water for cellular function, identifying and characterizing remnant hydrologic systems on ocean worlds is a crucial pillar in ...
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Assessing the Role of Antecedent Groundwater and Soil Moisture Conditions in Spring Flood Generation using Retrospective Noah-MP Model Simulation
ADVANCING HYDROLOGIC MODELING AND PREDICTION USING LARGE-DOMAIN METEOROLOGICAL AND HYDROLOGIC DATASETS I POSTER
hydrology | 13 december 2024
Eunsaem Cho, Eunsang Cho, Carrie Vuyovich, Bailing...
Groundwater variations are critical in large-scale spring flood generation because they control the capacity of surface water infiltration into soils ...
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Glacial Lake Mapping and Monitoring: Challenges, Emerging Trends, and Future Directions
CRYOSPHERIC CHANGES AND THEIR IMPACT ON THE HIGH-MOUNTAIN WATER CYCLE II POSTER
cryosphere | 11 december 2024
Imran Khan, Megan Verfaillie, Jeremy M. Johnston, ...
Glacial lakes are water bodies originating from glaciers. These lakes are an important feature of glacial landscapes and an essential part of mountain...
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A Library of Snow Field Imagery for Improving Knowledge of Snow Processes
QUANTIFYING SPATIAL AND TEMPORAL VARIABILITY OF SNOW AND SNOW PROCESSES II POSTER
cryosphere | 10 december 2024
Jeremy M. Johnston, Rashik Raj Koirala, Jennifer M...
Snow is highly variable in space and time. Snowpacks can develop in numerous different ways, which include wind redistribution processes, melt-refreez...
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Satellite Remote Sensing for Attribution of Routine and Extreme Winter and Spring Flood Events
QUANTIFYING SNOWPACK TO SUPPORT WATER RESOURCES, ECOSYSTEM HEALTH, AND SOCIETAL NEEDS II POSTER
cryosphere | 10 december 2024
Megan Verfaillie, Jennifer M. Jacobs, Carrie Vuyov...
Previous studies have reviewed major flood events in large basins to document conditions, determine the main cause, and identify appropriate mitigatio...
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Modeling Snow Microclimates within Montane Forests and Ephemeral Snow Environments
QUANTIFYING SPATIAL AND TEMPORAL VARIABILITY OF SNOW AND SNOW PROCESSES II POSTER
cryosphere | 10 december 2024
Jeremy M. Johnston, Adam Hunsaker, Jennifer M. Jac...
Snow properties such as depth and persistence vary widely at small scales. Such spatial variations, termed snow microclimates, frequently develop acro...
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Basin Scale Snow Water Equivalent Observations from Uncrewed Aerial Systems (UAS) Lidar at Hubbard Brook Experimental Forest, New Hampshire, USA
QUANTIFYING SNOWPACK TO SUPPORT WATER RESOURCES, ECOSYSTEM HEALTH, AND SOCIETAL NEEDS II POSTER
cryosphere | 10 december 2024
Ryan Reed, Adam Hunsaker, Jeremy M. Johnston, Jenn...
Timely and accurate information on snow water equivalent (SWE) is necessary to track the winter water cycle for water resources and flood management. ...
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Comparative Analysis of UAV Lidar Systems for Snow Surface Property Retrieval from Intensity Corrections
REMOTE SENSING OF THE CRYOSPHERE: SEASONAL SNOW II POSTER
cryosphere | 10 december 2024
Chelsea Ackroyd, Adam Hunsaker, McKenzie Skiles, J...
Aerial lidar intensity at 1064 nm has proven effective for retrieving snow reflectance and grain size over mountain watersheds throughout the melt sea...
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