Member Since 2011
Colin J. Gleason
Armstrong Professional Development Professor, University of Massachusetts Amherst
AGU Research
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Gauging River Sediment from Satellite Super-resolution Fusion and Open-Source Turbidity Sensors
REMOTE SENSING OF RIVERS, LAKES, RESERVOIRS, AND WETLANDS VI ORAL
hydrology | 15 december 2023
Elisa Friedmann, Theodore Langhorst, Colin J. Glea...
Large river suspended sediment regimes transport key nutrients, connect downstream wetlands and deltas, and impact human infrastructure decisions but ...
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Comparison of Deep Learning Models to Simulate Streamflow in High Mountain Regions: The Role of Training Data Heterogeneity and Sample Size for Transfer Learning
MACHINE LEARNING FOR HYDROLOGIC MODELING IV ORAL
hydrology | 14 december 2023
Meelisha Maharjan, Colin J. Gleason, Casey Brown, ...
High Mountain Regions are critical sources of freshwater for downstream communities, providing water for drinking, agriculture, industry and energy pr...
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Validation of SWOT in high latitude lakes, Yukon Flats National Wildlife Refuge, AK
THE SURFACE WATER AND OCEAN TOPOGRAPHY (SWOT) MISSION: A NEW SATELLITE FOR EARTH’S WATER CYCLE II POSTER
hydrology | 14 december 2023
Camryn Kluetmeier, Tamlin Pavelsky, J. T. Minear, ...
Validation of the newly launched Surface Water and Ocean Topography (SWOT) satellite mission is necessary to understand the precision and accuracy of ...
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Recent changes in global river discharge revealed by a new reanalysis product
THE SURFACE WATER AND OCEAN TOPOGRAPHY (SWOT) MISSION: A NEW SATELLITE FOR EARTH’S WATER CYCLE I ORAL
hydrology | 14 december 2023
Dongmei Feng, Colin J. Gleason
Rivers have unique physical, biogeochemical, energetic, and hydrologic gradients that transport and transform water, energy, nutrients, and organisms....
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Three-Dimensional Remote Sensing of Surface Water from SWOT and In-situ Measurements: A Comparison
THE SURFACE WATER AND OCEAN TOPOGRAPHY (SWOT) MISSION: A NEW SATELLITE FOR EARTH’S WATER CYCLE II POSTER
hydrology | 14 december 2023
Sonam F. Sherpa, Colin J. Gleason, Laurence C. Smi...
The recently launched Surface Water and Ocean Topography (SWOT) Ka-band radar interferometry satellite mission is providing new measurements of water ...
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The Surface Water and Ocean Topography River Discharge : An operational framework
THE SURFACE WATER AND OCEAN TOPOGRAPHY (SWOT) MISSION: A NEW SATELLITE FOR EARTH’S WATER CYCLE I ORAL
hydrology | 14 december 2023
Hind Oubanas, Colin J. Gleason, Michael T. Durand,...
The Surface Water and Ocean Topography (SWOT) mission marks a ground-breaking achievement as the first satellite designed to observe Earth's continent...
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Comparison of SWOT Against In-Situ and Airborne Data on a Braided River: A Waimakariri River Case Study
THE SURFACE WATER AND OCEAN TOPOGRAPHY (SWOT) MISSION: A NEW SATELLITE FOR EARTH’S WATER CYCLE II POSTER
hydrology | 14 december 2023
Marissa J. Dudek, Tamlin Pavelsky, Camryn Kluetmei...
This study compares the Surface Water and Ocean Topography (SWOT) satellite measurements of water surface elevation and inundation extent with in-situ...
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First impressions of SWOT over rivers
GLOBAL WATER RISKS: ADVANCES IN LARGE-SCALE FLOOD AND DROUGHT RISK ASSESSMENT AND MANAGEMENT FOR A SUSTAINABLE FUTURE II ORAL
hydrology | 14 december 2023
Colin J. Gleason, Tamlin Pavelsky, Taylor Rowley, ...
The SWOT mission has been highly anticipated for almost two decades, with dozens of papers and yearly AGU presentations building a picture of what we ...
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