2014
DOI: 10.1016/s1002-0160(14)60016-3
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Methanogenesis and Methanotrophy in Soil: A Review

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Cited by 259 publications
(147 citation statements)
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References 142 publications
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“…Higher emissions methane emissions in soils with moisture higher than 40% is a phenomenon consistent with higher methanogenesis and lower diffusion of O 2 and subsequent methanotrophy in those soils (Dalal et al, 2008;Serrano-Silva et al, 2014). As for the previously described pathways, diffusive emissions from the drawdown area were also higher during the WD season, here a consequence of the highest extent of the drawdown area during that season.…”
Section: Drawdown Area Emissionssupporting
confidence: 78%
“…Higher emissions methane emissions in soils with moisture higher than 40% is a phenomenon consistent with higher methanogenesis and lower diffusion of O 2 and subsequent methanotrophy in those soils (Dalal et al, 2008;Serrano-Silva et al, 2014). As for the previously described pathways, diffusive emissions from the drawdown area were also higher during the WD season, here a consequence of the highest extent of the drawdown area during that season.…”
Section: Drawdown Area Emissionssupporting
confidence: 78%
“…Conversely, wetland zones of the native prairie catchments consistently exhibited some of the highest CH 4 fluxes. Wetland zone WFPS was similar among land uses, excluding drained cropland catchments, so these relatively high fluxes likely were associated with other factors such as, microbial and plant communities, available organic carbon, water table elevation, pH, and soils (Segers, 1998;Le mer and Roger, 2001;Whalen, 2005;Kayranli et al, 2010;Laanbroek, 2010;Bridgham et al, 2013;Serrano-Silva et al, 2014).…”
Section: Land Use Effectsmentioning
confidence: 99%
“…These abiotic and biotic factors are linked to weather and climate, groundwater interactions (e.g., recharge, discharge), and geomorphology, and can vary by landscape positions which span the wetland to upland transitional gradient. Land use also can have considerable effects on these factors (Euliss and Mushet, 1996;Gleason and Euliss, 1998;van der kamp et al, 2003;Gleason et al, 2009;Liu and Greaver, 2009;Kumar et al, 2014;Serrano-Silva et al, 2014).…”
Section: Introductionmentioning
confidence: 99%
“…CO 2 , which serves as the major greenhouse gas contributor, supplies 60% of the greenhouse effect from humans, CH 4 and N 2 O contribute 15% and 5%, respectively [5]. In the global warming potential for the one hundred year horizon in terrestrial ecosystems, the contribution of CH 4 and N 2 O is 25 and 298 times larger than CO 2 respectively [6].…”
Section: Introductionmentioning
confidence: 99%