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Response of soil respiration to changes in soil temperature and water table level in drained and restored peatlands of the southeastern United States.

Publication ,  Journal Article
Swails, EE; Ardón, M; Krauss, KW; Peralta, AL; Emanuel, RE; Helton, AM; Morse, JL; Gutenberg, L; Cormier, N; Shoch, D; Settlemyer, S; Ward, S ...
Published in: Carbon balance and management
November 2022

Extensive drainage of peatlands in the southeastern United States coastal plain for the purposes of agriculture and timber harvesting has led to large releases of soil carbon as carbon dioxide (CO2) due to enhanced peat decomposition. Growth in mechanisms that provide financial incentives for reducing emissions from land use and land-use change could increase funding for hydrological restoration that reduces peat CO2 emissions from these ecosystems. Measuring soil respiration and physical drivers across a range of site characteristics and land use histories is valuable for understanding how CO2 emissions from peat decomposition may respond to raising water table levels. We combined measurements of total soil respiration, depth to water table from soil surface, and soil temperature from drained and restored peatlands at three locations in eastern North Carolina and one location in southeastern Virginia to investigate relationships among total soil respiration and physical drivers, and to develop models relating total soil respiration to parameters that can be easily measured and monitored in the field.Total soil respiration increased with deeper water tables and warmer soil temperatures in both drained and hydrologically restored peatlands. Variation in soil respiration was more strongly linked to soil temperature at drained (R2 = 0.57, p < 0.0001) than restored sites (R2 = 0.28, p < 0.0001).The results suggest that drainage amplifies the impact of warming temperatures on peat decomposition. Proxy measurements for estimation of CO2 emissions from peat decomposition represent a considerable cost reduction compared to direct soil flux measurements for land managers contemplating the potential climate impact of restoring drained peatland sites. Research can help to increase understanding of factors influencing variation in soil respiration in addition to physical variables such as depth to water table and soil temperature.

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Published In

Carbon balance and management

DOI

EISSN

1750-0680

ISSN

1750-0680

Publication Date

November 2022

Volume

17

Issue

1

Start / End Page

18

Related Subject Headings

  • Meteorology & Atmospheric Sciences
 

Citation

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ICMJE
MLA
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Swails, E. E., Ardón, M., Krauss, K. W., Peralta, A. L., Emanuel, R. E., Helton, A. M., … Ward, S. (2022). Response of soil respiration to changes in soil temperature and water table level in drained and restored peatlands of the southeastern United States. Carbon Balance and Management, 17(1), 18. https://doi.org/10.1186/s13021-022-00219-5
Swails, E. E., M. Ardón, K. W. Krauss, A. L. Peralta, R. E. Emanuel, A. M. Helton, J. L. Morse, et al. “Response of soil respiration to changes in soil temperature and water table level in drained and restored peatlands of the southeastern United States.Carbon Balance and Management 17, no. 1 (November 2022): 18. https://doi.org/10.1186/s13021-022-00219-5.
Swails EE, Ardón M, Krauss KW, Peralta AL, Emanuel RE, Helton AM, et al. Response of soil respiration to changes in soil temperature and water table level in drained and restored peatlands of the southeastern United States. Carbon balance and management. 2022 Nov;17(1):18.
Swails, E. E., et al. “Response of soil respiration to changes in soil temperature and water table level in drained and restored peatlands of the southeastern United States.Carbon Balance and Management, vol. 17, no. 1, Nov. 2022, p. 18. Epmc, doi:10.1186/s13021-022-00219-5.
Swails EE, Ardón M, Krauss KW, Peralta AL, Emanuel RE, Helton AM, Morse JL, Gutenberg L, Cormier N, Shoch D, Settlemyer S, Soderholm E, Boutin BP, Peoples C, Ward S. Response of soil respiration to changes in soil temperature and water table level in drained and restored peatlands of the southeastern United States. Carbon balance and management. 2022 Nov;17(1):18.
Journal cover image

Published In

Carbon balance and management

DOI

EISSN

1750-0680

ISSN

1750-0680

Publication Date

November 2022

Volume

17

Issue

1

Start / End Page

18

Related Subject Headings

  • Meteorology & Atmospheric Sciences