Dataset: Oxygen priming induced by elevated CO2 reduces carbon accumulation and methane emissions in coastal wetlands, 2017-2020, Maryland.
This dataset accompanies the published paper Noyce et al. (2023) in Nature Geosciences. The data are from a multi-year field manipulation of warming and elevated CO2 (SMARTX) in the Smithsonian's Global Change Research Wetland (GCReW), a brackish, microtidal wetland side on a subestuary of the Chesapeake Bay. These data were generated to understand how warming and elevated CO2 interact to structure ecosystem-level responses to global change, particularly in terms of carbon sequestration. The dataset covers 2017-2020 and includes surface elevation, soil redox potential, methane (CH4) emissions, porewater CH4, root biomass, and stem density for each experimental plot. Metadata are provided in the Read Me file.
Funding
Coastal Wetland Carbon Sequestration in a Warmer Climate
Office of Biological and Environmental Research
Find out more...Coastal Wetland Carbon Processes in a Warmer Climate
Office of Biological and Environmental Research
Find out more...Coastal Terrestrial Interface Carbon Cycling in a Warmer Climate
Office of Biological and Environmental Research
Find out more...LTREB: Thirty-Four Years of Tidal Marsh Response to Environmental Change
Directorate for Biological Sciences
Find out more...