Neotropical peatland methane emissions along a vegetation and biogeochemical gradient.

dc.contributor.author

Winton, R Scott

dc.contributor.author

Flanagan, Neal

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Richardson, Curtis J

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Rinnan, Riikka

dc.coverage.spatial

United States

dc.date.accessioned

2017-11-01T13:56:18Z

dc.date.available

2017-11-01T13:56:18Z

dc.date.issued

2017

dc.description.abstract

Tropical wetlands are thought to be the most important source of interannual variability in atmospheric methane (CH4) concentrations, yet sparse data prevents them from being incorporated into Earth system models. This problem is particularly pronounced in the neotropics where bottom-up models based on water table depth are incongruent with top-down inversion models suggesting unaccounted sinks or sources of CH4. The newly documented vast areas of peatlands in the Amazon basin may account for an important unrecognized CH4 source, but the hydrologic and biogeochemical controls of CH4 dynamics from these systems remain poorly understood. We studied three zones of a peatland in Madre de Dios, Peru, to test whether CH4 emissions and pore water concentrations varied with vegetation community, soil chemistry and proximity to groundwater sources. We found that the open-canopy herbaceous zone emitted roughly one-third as much CH4 as the Mauritia flexuosa palm-dominated areas (4.7 ± 0.9 and 14.0 ± 2.4 mg CH4 m-2 h-1, respectively). Emissions decreased with distance from groundwater discharge across the three sampling sites, and tracked changes in soil carbon chemistry, especially increased soil phenolics. Based on all available data, we calculate that neotropical peatlands contribute emissions of 43 ± 11.9 Tg CH4 y-1, however this estimate is subject to geographic bias and will need revision once additional studies are published.

dc.identifier

https://www.ncbi.nlm.nih.gov/pubmed/29053738

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PONE-D-17-29413

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1932-6203

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https://hdl.handle.net/10161/15696

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eng

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Public Library of Science (PLoS)

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PLoS One

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10.1371/journal.pone.0187019

dc.title

Neotropical peatland methane emissions along a vegetation and biogeochemical gradient.

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Journal article

pubs.author-url

https://www.ncbi.nlm.nih.gov/pubmed/29053738

pubs.begin-page

e0187019

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10

pubs.organisational-group

Duke

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Environmental Sciences and Policy

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Marine Science and Conservation

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Nicholas School of the Environment

pubs.publication-status

Published online

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12

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