2011
DOI: 10.1111/j.1365-2486.2010.02290.x
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CH4 production and oxidation processes in a boreal fen ecosystem after long-term water table drawdown

Abstract: Mires, especially sedge dominated fens, are sources of the greenhouse gas CH4. Climate change scenarios predict a lowering water table (WT) in mires. To study the effect of WT drawdown on CH4 dynamics in a fen ecosystem, we took advantage of a WT drawdown gradient near a ground water extraction plant. Methane fluxes, CH4 production and oxidation potentials, were related to microbial communities responsible for the processes in four mire locations (wet, semi-wet, semi-dry and dry). Principal component analyses … Show more

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Cited by 109 publications
(79 citation statements)
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References 55 publications
(88 reference statements)
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“…Methane-producing microbial activity may also increase as long as there are anoxic conditions and available substrates. However, in boreal climates warming is predicted to lower the WT, leading to thicker aerobic peat, which potentially creates a higher methane consumption rate layer (Yrjälä et al, 2011). Thus, changes in WT may compensate for the effect of rising temperature under a warmer climate.…”
Section: Discussionmentioning
confidence: 99%
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“…Methane-producing microbial activity may also increase as long as there are anoxic conditions and available substrates. However, in boreal climates warming is predicted to lower the WT, leading to thicker aerobic peat, which potentially creates a higher methane consumption rate layer (Yrjälä et al, 2011). Thus, changes in WT may compensate for the effect of rising temperature under a warmer climate.…”
Section: Discussionmentioning
confidence: 99%
“…Turetsky et al (2014) presented the mean methane flux of 15 bog sites as 96 ± 6 mg m −2 d −1 , which is a little higher than the mean fluxes in 2012 and 2014 (57 ± 6 and 77 ± 7 mg m −2 d −1 ) but lower than the mean flux in the warmest year 2013 (131 ± 12 mg m −2 d −1 ) in this study. Similarly, another review (Wilson et al, 2016) that included wintertime fluxes calculated lower mean methane flux for boreal nutrient-poor sites, 4100 mg m −2 yr −1 with 95 % CI from 50 to 24 600 mg m −2 yr −1 .…”
Section: Discussionmentioning
confidence: 99%
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“…Fluxes were calculated using the linear portion of the gas concentration change over the 2-h time step (mean R 2 = 0.89). Rare ebullition events were deleted from the data (Yrjälä et al 2011). Water table level (WTL) and temperature of pore water from the surface was recorded (Figures 3b,d,f ).…”
Section: Ourmentioning
confidence: 99%
“…Methane producing microbial activity may also increase as long as there are anoxic conditions and available substrates. However, in boreal climate warming is predicted to lower WT leading to thicker aerobic peat, which enables a higher methane consumption rate layer (Yrjälä et al, 2011). Thus, changes in WT may compensate the effect of rising temperature under a warmer climate.…”
mentioning
confidence: 99%