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Article Abstract
Reservoirs are hotspots for methane (CH) emissions. However, to date, the effects of terrestrial organic matter (OM) input and degradation on CH emissions from large reservoirs remain largely unknown. From May 2020 to April 2021, we conducted monthly sampling campaigns at 100 sites in Lake Qiandao (580 km), a mega-reservoir in China, and made monthly vertical profile observations from March to September 2023. We estimated an annual mean CH flux of 0.26 g C m yr (1.51 × 10 g C yr). Elevated CH and enriched δC-CH coincided with low dissolved oxygen (DO) concentrations, high levels of organic suspended solids, terrestrial organic matter, nutrients, depleted δO-HO, and low carbon isotope fractionation (α) in the inflowing lake regions. Dissolved CH (CH) correlated positively to the relative abundance of aliphatic compounds. Anoxic bioincubation experiments revealed rapid degradation of riverine organic matter, accompanied by a 56-fold increase in CH, δC-CH enrichment (to -32.25‰), and a significant decrease in α to 1.02. These findings indicate that acetoclastic CH production makes a substantial contribution to CH and thus CH. Based on multiple lines of evidence, we conclude that input of terrestrial organic matter and its subsequent degradation lead to DO depletion, and their OM degradation byproducts serve as carbon substrates that promote CH emissions.
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