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W2059172016 abstract "The largest natural biological sink for the radiatively active trace gas methane (CH4) is bacteria in soils that consume CH4 as an energy and carbon source. This sink has been shown to be sensitive to nitrogen (N) inputs and alterations of soil physical conditions. Given this sensitivity, conversion of native ecosystems to urban, suburban, and exurban managed lawns thus has potential to affect regional CH4 budgets. We measured CH4 fluxes monthly from four urban forest, four rural forest and four urban lawn plots in the Baltimore, MD, metropolitan area from 2001 to 2005. Our objectives were to evaluate the effects of urban atmospheric and land use change on CH4 uptake and the importance of these changes relative to other greenhouse forcings in the urban landscape. Rural forests had a high capacity for CH4 uptake (1.68 mg m(-2) day(-1)). This capacity was reduced in urban forests (0.23 mg m(-2) day(-1)) and almost completely eliminated in lawns. Possible mechanisms for these reductions include increases in atmospheric N deposition and CO2 levels, fertilization of lawns, and alteration of soil physical conditions that influence diffusion. Although conversion of native forests to lawns had dramatic effects on CH4 uptake, these effects do not appear to be significant to statewide greenhouse gas forcing." @default.
W2059172016 created "2016-06-24" @default.
W2059172016 creator A5010883275 @default.
W2059172016 creator A5019856148 @default.
W2059172016 date "2009-06-08" @default.
W2059172016 modified "2023-09-25" @default.
W2059172016 title "Methane Uptake in Urban Forests and Lawns" @default.
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W2059172016 doi "https://doi.org/10.1021/es803720h" @default.
W2059172016 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19708346" @default.
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