Member Since 2011
Colin J. Gleason
Armstrong Professional Development Professor, University of Massachusetts Amherst
AGU Research
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Simulations of Riverine Phosphorus in the Ohio River Basin: Assimilation of Remote Sensing Data Using a Deep Learning Framework
APPLICATION OF AI TOOLS TO EMPOWER HYDROLOGICAL SCIENCES: OBSERVATIONS/MONITORING, ANALYTICS/ASSESSMENTS, AND MODELING/PREDICTION/EARLY WARNING SYSTEMS I POSTER
hydrology | 13 december 2024
Pradeep Ramtel, Abhinav Sharma, Dongmei Feng, Elis...
Accurate and continuous monitoring of riverine total phosphorus (TP) levels is crucial for effective water quality management. However, in-situ measur...
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Characterization of SWOT Ka-band backscatter and classification of North Saskatchewan surface waters
THE SURFACE WATER AND OCEAN TOPOGRAPHY (SWOT) MISSION: NEW FRONTIERS IN HYDROLOGY VI ELIGHTNING
hydrology | 11 december 2024
Sonam F. Sherpa, Laurence C. Smith, Sebastian Muño...
The recently launched SWOT Ka-band radar interferometry satellite mission provides hydrological measurements including inundation extent, water surfac...
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Assessing and Comparing SWOT River Discharge Performance Between Fast Sampling and Science Orbits
THE SURFACE WATER AND OCEAN TOPOGRAPHY (SWOT) MISSION: NEW FRONTIERS IN HYDROLOGY V POSTER
hydrology | 11 december 2024
Elisa Friedmann, Colin J. Gleason, Michael T. Dura...
The recently launched Surface Water Ocean Topography (SWOT) mission retrieves height, width, area, and slope for the worlds large rivers. From these m...
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A spatially finer and temporally denser intra-annual pattern for global lakes and reservoirs revealed by SWOT
REMOTE SENSING OF RIVERS, LAKES, RESERVOIRS, AND WETLANDS I ORAL
hydrology | 11 december 2024
Jida Wang, Md. S. Sikder, George H. Allen, Huilin ...
Lakes and reservoirs are among the most prevalent inland water repositories. A conservative estimate suggests nearly 6 million permanent and intermitt...
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BRAID: An Algorithm to Constrain Braided River Discharge Estimates Using SWOT
THE SURFACE WATER AND OCEAN TOPOGRAPHY (SWOT) MISSION: NEW FRONTIERS IN HYDROLOGY V POSTER
hydrology | 11 december 2024
Marissa J. Hughes, Colin J. Gleason, Tamlin Pavels...
Remote sensing of terrestrial hydrology has revolutionized our ability to estimate fluvial discharge on a global scale, especially in semi-gauged and ...
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Advancing Stream Network Models of Inland Water Carbon Cycling and Emissions
ADVANCEMENTS IN CRITICAL ZONE HYDROBIOGEOCHEMISTRY THROUGH INTEGRATION OF FIELD DATA AND MODELS POSTER
hydrology | 10 december 2024
Matthew Winnick, Brian Saccardi, Craig B. Brinkerh...
Inland waters play in important role within the global carbon cycle, in part through emissions of carbon dioxide (CO2) to the atmosphere. However, the...
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Confluence, the operational cloud pipeline predicting global scale discharge using the SWOT satellite.
THE SURFACE WATER AND OCEAN TOPOGRAPHY (SWOT) MISSION: NEW FRONTIERS IN HYDROLOGY II ORAL
hydrology | 10 december 2024
Travis Simmons, Colin J. Gleason, Stephen P. Coss,...
Over the last decade, algorithm developers have published methods to turn SWOT data into river discharge estimates. SWOTs unprecedented data volumes a...
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Integrating information across river networks improves SWOT discharge consistency, accuracy, and usability
THE SURFACE WATER AND OCEAN TOPOGRAPHY (SWOT) MISSION: NEW FRONTIERS IN HYDROLOGY II ORAL
hydrology | 10 december 2024
Michael T. Durand, Stephen P. Coss, Demian Gomez, ...
The SWOT satellite mission was launched in December 2022 and enables global river discharge estimation, including thousands of ungaged basins. To real...
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