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Emissions of methane from northern peatlands: a review of management impacts and implications for future management options
Author(s) -
Abdalla Mohamed,
Hastings Astley,
Truu Jaak,
Espenberg Mikk,
Mander Ülo,
Smith Pete
Publication year - 2016
Publication title -
ecology and evolution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.17
H-Index - 63
ISSN - 2045-7758
DOI - 10.1002/ece3.2469
Subject(s) - peat , environmental science , methane , greenhouse gas , ecosystem , climate change , atmosphere (unit) , hydrology (agriculture) , atmospheric sciences , physical geography , ecology , geography , geology , meteorology , geotechnical engineering , biology
Northern peatlands constitute a significant source of atmospheric methane ( CH 4 ). However, management of undisturbed peatlands, as well as the restoration of disturbed peatlands, will alter the exchange of CH 4 with the atmosphere. The aim of this systematic review and meta‐analysis was to collate and analyze published studies to improve our understanding of the factors that control CH 4 emissions and the impacts of management on the gas flux from northern (latitude 40° to 70°N) peatlands. The analysis includes a total of 87 studies reporting measurements of CH 4 emissions taken at 186 sites covering different countries, peatland types, and management systems. Results show that CH 4 emissions from natural northern peatlands are highly variable with a 95% CI of 7.6–15.7 g C m −2  year −1 for the mean and 3.3–6.3 g C m −2  year −1 for the median. The overall annual average (mean ±  SD ) is 12 ± 21 g C m −2  year −1 with the highest emissions from fen ecosystems. Methane emissions from natural peatlands are mainly controlled by water table ( WT ) depth, plant community composition, and soil pH . Although mean annual air temperature is not a good predictor of CH 4 emissions by itself, the interaction between temperature, plant community cover, WT depth, and soil pH is important. According to short‐term forecasts of climate change, these complex interactions will be the main determinant of CH 4 emissions from northern peatlands. Drainage significantly ( p  < .05) reduces CH 4 emissions to the atmosphere, on average by 84%. Restoration of drained peatlands by rewetting or vegetation/rewetting increases CH 4 emissions on average by 46% compared to the original premanagement CH 4 fluxes. However, to fully evaluate the net effect of management practice on the greenhouse gas balance from high latitude peatlands, both net ecosystem exchange ( NEE ) and carbon exports need to be considered.

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