The spatial distribution of soil organic carbon in tidal wetland soils of the continental United States. Academic Article uri icon

abstract

  • Tidal wetlands contain large reservoirs of carbon in their soils and can sequester carbon dioxide (CO2 ) at a greater rate per unit area than nearly any other ecosystem. The spatial distribution of this carbon influences climate and wetland policy. To assist with international accords such as the Paris Climate Agreement, national-level assessments such as the United States (U.S.) National Greenhouse Gas Inventory, and regional, state, local, and project-level evaluation of CO2 sequestration credits, we developed a geodatabase (CoBluCarb) and high-resolution maps of soil organic carbon (SOC) distribution by linking National Wetlands Inventory data with the U.S. Soil Survey Geographic Database. For over 600,000 wetlands, the total carbon stock and organic carbon density was calculated at 5-cm vertical resolution from 0 to 300cm of depth. Across the continental United States, there are 1,153-1,359 Tg of SOC in the upper 0-100cm of soils across a total of 24945.9km2 of tidal wetland area, twice as much carbon as the most recent national estimate. Approximately 75% of this carbon was found in estuarine emergent wetlands with freshwater tidal wetlands holding about 19%. The greatest pool of SOC was found within the Atchafalaya/Vermilion Bay complex in Louisiana, containing about 10% of the U.S. total. The average density across all tidal wetlands was 0.071g cm-3 across 0-15cm, 0.055g cm-3 across 0-100cm, and 0.040g cm-3 at the 100cm depth. There is inherent variability between and within individual wetlands; however, we conclude that it is possible to use standardized values at a range of 0-100cm of the soil profile, to provide first-order quantification and to evaluate future changes in carbon stocks in response to environmental perturbations. This Tier 2-oriented carbon stock assessment provides a scientific method that can be copied by other nations in support of international requirements.

published proceedings

  • Glob Chang Biol

altmetric score

  • 13.85

author list (cited authors)

  • Hinson, A. L., Feagin, R. A., Eriksson, M., Najjar, R. G., Herrmann, M., Bianchi, T. S., ... Boutton, T.

citation count

  • 57

complete list of authors

  • Hinson, Audra L||Feagin, Rusty A||Eriksson, Marian||Najjar, Raymond G||Herrmann, Maria||Bianchi, Thomas S||Kemp, Michael||Hutchings, Jack A||Crooks, Steve||Boutton, Thomas

publication date

  • December 2017

publisher