Member Since 2011
Kelly C. Wrighton
Professor, Colorado State University Fort Collins
AGU Research
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ELM‐Wet: Inclusion of a Wet‐Landunit With Sub‐Grid Representation of Eco‐Hydrological Patches and Hydrological Forcing Improves Methane Emission Estimations in the E3SM Land Model (ELM)
JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS
04 february 2025
Theresia Yazbeck, Gil Bohrer, Madeline Scyphers, J...
Wetlands are the largest emitters of biogenic methane (CH4) and represent the highest source of uncertainty in global CH4 budgets. Here, we aim to ...
Methanotrophic Potential of a Northern Fen Peatland
BUILDING A MORE COMPLETE REPRESENTATION OF METHANE DYNAMICS ACROSS EARTH'S ECOSYSTEMS I POSTER
biogeosciences | 12 december 2024
Rachel Wilson, Suzanne B. Hodgkins, Cheristy Jones...
Northern peatlands store a large quantity of carbon equivalent to approximately 50% of the current atmospheric carbon dioxide (CO2) pool, a large port...
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Methanotrophy as a natural mechanism of methane mitigation at the terrestrial-aquatic interface
WHERE LAND MEETS WATER: BIOGEOCHEMICAL CYCLING AT THE TERRESTRIAL-AQUATIC INTERFACE I POSTER
biogeosciences | 12 december 2024
Sophie Jurgensen, Jared Ellenbogen, Sam Aroney, Br...
Saturated soils are the largest natural source of methane, a potent greenhouse gas that contributes to 30% of global warming. The balance of net metha...
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Depth-Specific Greenhouse Gas Emission Responses to Abrupt Permafrost Thaw
VULNERABILITY OF PERMAFROST CARBON TO CLIMATE CHANGE III POSTER
biogeosciences | 12 december 2024
Emily Stuchiner, Hailey Webb, Matthias Fuchs, Jaso...
There is great uncertainty surrounding the permafrost carbon feedback from Arctic soils throughout the depth profile under abrupt thaw. Soil in the ac...
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ELM-Wet: A new wet-landunit approach for patch-level resolution of carbon and methane fluxes from wetlands in ELM
THE GLOBAL METHANE BUDGET AND ADVANCING UNDERSTANDING OF WETLAND GREENHOUSE GAS EMISSIONS II ORAL
biogeosciences | 12 december 2024
Gil Bohrer, Theresia Yazbeck, Madeline Scyphers, J...
We improved the realism of wetland representation in the U.S. Department of Energys Exascale Earth System Model (E3SM) Land-surface Model (ELM). We de...
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Unveiling the Role of Microbes in Soil Carbon Dynamics Under Contrasting Grazing Management in Semi-Arid Rangelands
ADVANCING SOIL CARBON PREDICTIONS: FROM MICRO- TO GLOBAL SCALE I POSTER
biogeosciences | 11 december 2024
Laura Moore, Paige Stanley, Emily Bechtold, Sophie...
Regenerative grazing is currently recognized as an important tool for restoring soil organic carbon (SOC) on rangelands. However, little is known abou...
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Network Analysis and Causal Inference Identify the Critical Controls on Variations in Methane Production and Pathways in a Permafrost Fen
ADVANCING SOIL CARBON PREDICTIONS: FROM MICRO- TO GLOBAL SCALE I POSTER
biogeosciences | 11 december 2024
Qiong Wu, Eric King, Gianna Marschmann, Sergi Moli...
Identifying the critical controls on microbial methane (CH4) production in permafrost systems is essential to constrain current biogeochemical models ...
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Influence of Biogeochemical Drivers on Greenhouse Gas Fluxes in North American Wetlands: Insights from a Multi-site Field Study
ADVANCES IN MEASUREMENTS, SYNTHESIS, ANALYSIS, AND MODELING OF GREENHOUSE GAS FLUXES FROM NATURAL ECOSYSTEMS I ORAL
biogeosciences | 10 december 2024
Aaron Gondran, Sophie K. Jurgensen, Gil Bohrer, Sh...
Current estimates of wetland contributions to global greenhouse gas (GHG) budgets have high uncertainties in part due to a poor representation of comp...
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