Environmental Research Letters (Jan 2016)

Enhanced greenhouse gas emission from exposed sediments along a hydroelectric reservoir during an extreme drought event

  • Hyojin Jin,
  • Tae Kyung Yoon,
  • Seung-Hoon Lee,
  • Hojeong Kang,
  • Jungho Im,
  • Ji-Hyung Park

DOI
https://doi.org/10.1088/1748-9326/11/12/124003
Journal volume & issue
Vol. 11, no. 12
p. 124003

Abstract

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An active debate has been underway on the magnitude and duration of carbon (C) emissions from hydroelectric reservoirs, yet little attention has been paid to stochastic C emissions from reservoir sediments during extreme climatic events. A rare opportunity for field measurements of CO _2 efflux from a hydroelectric reservoir in Korea during an extreme drought event was used to examine how prolonged droughts can affect microbial organic matter processing and the release of CO _2 , CH _4 and N _2 O from exposed sediments. Chamber measurements of CO _2 efflux along an exposed sediment transect, combined with high-frequency continuous sensor measurements of the partial pressure of CO _2 (pCO _2 ) in the reservoir surface water, exhibited extraordinary pulses of CO _2 from exposed sediments and the turbulent inflowing water in contrast to a small CO _2 sink in the main water body of the reservoir and a low efflux of CO _2 from the flooded sediment. Significant increases in the production of CO _2 , CH _4 and N _2 O observed in a laboratory incubation of sediments, together with enhanced activities of phenol oxidase and three hydrolases, indicate a temporary activation of microbial organic matter processing in the drying sediment. The results suggest that drought-triggered pulses of greenhouse gas emission from exposed sediments can offset the C accumulation in reservoir sediments over time scales of years to decades, reversing the trend of declining C emissions from aging reservoirs.

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