C. J. Gleason

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    A[C. J. Gleason]
    AC["Associated Concepts (24)"]
    AW["Authored Works (25)"]
    CA["Linked Co-Authors (46)"]
    CI["Linked Collaborating Institutions (31)"]
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ORCiD

https://orcid.org/0000-0002-3525-6220

OpenAlex ID

https://openalex.org/A5070818166 (API record)

Associated Concepts [?]

• Geology
• Geography
• Environmental science
• Engineering
• Biology
• Physics
• Hydrology (agriculture)
• Geotechnical engineering
• Remote sensing
• Oceanography
• Computer science
• Paleontology
• Meteorology
• Ecology
• Cartography
• Geomorphology
• Physical geography
• Aerospace engineering
• Mathematics
• Economics
• Drainage basin
• Astronomy
• Glacier
• Climatology

Authored Works

sorted by decreasing year, and then by display-name

• Upscaling a High-Resolution Reactive Transport Model for Predicting Inland Water CO2 Concentrations and Fluxes Across the Continental United States
• Tracking dynamic wetland vegetation communities after a flood event with airborne AVIRIS-NG, UAVSAR, UAV LiDAR, and PlanetScope data in Peace-Athabasca Delta
• Tracking an ongoing river avulsion with satellite remote sensing and field measurements
• Simultaneous remote sensing of river discharge and suspended sediment on the Sagavanirktok River, Alaska.
• Plan for Assessing SWOT Discharge Accuracy
• One Model to Rule Them All: A Ubiquitous Data Modeling Approach to Improved Temporal-Spatial Learning of Physics Guided Machine Learning Models in Hydrology
• Monitoring CONUS River Sediment Concentration Through Landsat, Sentinel, and MODIS Satellite Sensor Fusion
• Globally Mapping Arctic Beaded Streams with Computer Vision and Planet Imagery
• Assessing the flow variability of headwater streams in High Mountain Asia using satellite remote sensing
• Anticipated Continental-Scale River Gas Exchange Dynamics: How will SWOT Inform River CO2 Modeling?
• An updated understanding of global rivers from a new global river discharge reanalysis product: implications for SWOT mission
• A global framework for SWOT discharge with examples from the Ohio River
• Towards continental-scale transport modeling of drainage network CO2 evasion
• Towards Remote River Discharge Prediction Using Machine Learning and Satellite Observations under Data Scarcity
• The Importance of Lake Littoral Zones to Arctic-Boreal Methane Emissions
• Preliminary results for Lakeflow, an algorithm to improve SWOT flow-law parameters through integrating river-lake mass conservation
• How does global river width change with time?
• Gas Exchange in Large Rivers Controlled by Largest Turbulent Eddies: Implications for Remotely Sensing Gas Exchange via SWOT
• Filling in the Discontinuous Global River Gauge Record Using Satellite Observations.
• Evaluation of Satellite and Reanalysis Data for Simulating Streamflow in Glacierized Catchments in the Himalayas
• Confluence: An open-source framework for SWOT discharge estimation and value-added products
• Combining Optical Imagery and Altimetry to Test SWOT Discharge Algorithms
• Classification of glaciers in Koshi River Basin, Nepal using machine learning algorithms and clustering techniques
• Assimilation of satellite data in a hydrological model to improve the water level estimation in winter drawdown lakes, Massachusetts
• A Multi-Sensor Cloud-based Framework to Characterize Winter Water Level Drawdown of Lakes and Reservoirs in Northeast United States

Linked Co-Authors

• Angelica Tarpanelli
• Augusto Getirana
• Bo Wang
• Brian Saccardi
• C. W. Brown
• Chang Huang
• Chao Wang
• Charles Kuhn
• Christopher J. Zappa
• Craig Brinkerhoff
• Cédric H. David
• David Butman
• Dongmei Feng
• E. D. Kyzivat
• Efthymios I. Nikolopoulos
• Elizabeth H. Altenau
• Emily Eidam
• Fenix Garcia‐Tigreros
• George H. Allen
• Jessica V. Fayne
• Jida Wang
• Julianne Davis
• Kimberly P. Wickland
• Konstantinos M. Andreadis
• L. A. Stearns
• L. C. Smith
• Luciana Fenoglio-Marc
• Merritt E. Harlan
• Michael Durand
• Mohammad J. Tourian
• P. A. Raymond
• Paul Bates
• Renato Prata de Moraes Frasson
• Robert G. M. Spencer
• Robert G. Striegl
• Robert W. Dudley
• Ryan M. Riggs
• S. A. Margulis
• S. P. Coss
• Safat Sikder
• Shaoda Liu
• Shuai Zhang
• Sungwook Wi
• T. Pavelsky
• Theodore Langhorst
• Xiao Yang

Linked Collaborating Institutions

• Beijing Normal University, China
• Brown University, Rhode Island
• Columbia University, New York
• Cornell University, New York
• DTU Physics, Lyngby
• Florida Institute of Technology
• Florida State University
• Italian National Research Council, Perugia
• Jet Propulsion Laboratory
• Kansas State University
• Kathmandu University, Nepal
• NASA Goddard Space Flight Center, Maryland
• Northwest University, China
• Oregon State University, Corvallis
• Peking University, China
• Rheinische Friedrich Wilhelms University of Bonn, Germany
• Southern Methodist University, Texas
• Technical University of Darmstadt, Germany
• Texas A&M University, College Station
• The Ohio State University
• UMass Amherst
• University of Bristol, UK
• University of California, Los Angeles
• University of Cincinnati, Ohio
• University of Colorado, Boulder
• University of Kansas
• University of Michigan
• University of North Carolina, Chapel Hill
• University of Stuttgart, Institute for Geodesy
• University of Washington, Seattle
• Yale University, Connecticut

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