Dataset: Oxygen priming induced by elevated CO2 reduces carbon accumulation and methane emissions in coastal wetlands, 2017-2020, Maryland.
Version 4 2025-02-06, 18:19
Version 3 2022-12-21, 15:21
Version 2 2022-11-29, 19:21
Version 1 2022-10-07, 16:07
dataset
posted on 2025-02-06, 18:19 authored by Genevieve NoyceGenevieve Noyce, J. Patrick MegonigalJ. Patrick Megonigal, Alexander J. Smith, Matt Kirwan, Roy RichRoy Rich<p>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 CO<sub>2</sub> (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. </p>
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...
