Carbon and nutrients regulate greenhouse gas fluxes from oxic stream sediments

Carbon and nutrients regulate greenhouse gas fluxes from oxic stream sediments

Streams play a significant role in global biogeochemical cycles and are usually sources of greenhouse gasses to the atmosphere. To better understand controls on greenhouse gas production from stream sediments and their contribution to whole stream greenhouse gas evasion, we estimated fluxes of CO 2...

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Bibliographic Details
Published in:Biogeochemistry Vol. 160; no. 2; pp. 275 - 287
Main Authors: Pearce, Nolan J. T., Dyczko, Jessica M., Xenopoulos, Marguerite A.
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-09-2022
Springer Nature B.V
Subjects:
Biogeochemical cycle
Biogeochemical cycles
Biogeochemistry
Biogeosciences
Carbon
Carbon dioxide
Composition
Dissolved organic carbon
Dissolved organic matter
Earth and Environmental Science
Earth Sciences
Ecosystems
Environmental Chemistry
Fluxes
Gas production
Greenhouse effect
Greenhouse gases
Heterogeneity
Land use
Life Sciences
Methane
Nitrous oxide
Nutrient concentrations
Nutrients
Oil and gas production
Oxic sediments
Physicochemical processes
Physicochemical properties
Rivers
Sediment
Sediments
Streams
Variation
Water circulation
Water column
Watersheds
Nutrients
Dissolved organic matter
Sediments
Greenhouse gas
Streams
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Summary:Streams play a significant role in global biogeochemical cycles and are usually sources of greenhouse gasses to the atmosphere. To better understand controls on greenhouse gas production from stream sediments and their contribution to whole stream greenhouse gas evasion, we estimated fluxes of CO 2 , CH 4 , and N 2 O from 48 streams in southern Ontario, Canada that represented a gradient in both the amount and composition of dissolved organic carbon in addition to dissolved nutrients. Greenhouse gas fluxes from oxic sediment incubations were far lower than the fluxes estimated from water column greenhouse gas concentrations at the whole stream scale. Moreover, variation in sediment greenhouse gas fluxes was not positively associated with variation in those estimated from the whole stream or with water column greenhouse gas concentrations. However, dissolved organic carbon and nutrient concentrations were associated with increased sediment CO 2 and N 2 O fluxes but consistent variation in dissolved organic matter composition did not appear to regulate these fluxes. Sediment physicochemical properties were unable to explain any variation in sediment CH 4 fluxes. Although whole stream greenhouse gas fluxes integrate heterogeneity in biogeochemical processes within streams, our findings suggest that changes to streams and/or their watersheds resulting in the overall enrichment of nutrients and carbon (e.g., land use change) will increase the production of CO 2 and N 2 O from sediments.
ISSN:0168-2563
1573-515X
DOI:10.1007/s10533-022-00955-3