Open AccessMethane emission offsets carbon dioxide uptake in a small productive lake
Author(s) -
Vachon Dominic,
Langenegger Timon,
Donis Daphne,
Beaubien Stan E.,
McGinnis Daniel F.
Publication year - 2020
Publication title -
limnology and oceanography letters
Language(s) - English
Resource type - Journals
ISSN - 2378-2242
DOI - 10.1002/lol2.10161
Subject(s) - environmental science , ecosystem , carbon dioxide , greenhouse gas , methane , primary production , aquatic ecosystem , atmosphere (unit) , carbon dioxide equivalent , carbon fibers , production (economics) , environmental chemistry , atmospheric sciences , ecology , chemistry , geography , meteorology , biology , physics , mathematics , macroeconomics , composite number , economics , algorithm
Here, we investigate the importance of net CH 4 production and emissions in the carbon (C) budget of a small productive lake by monitoring CH 4 , CO 2 , and O 2 for two consecutive years. During the study period, the lake was mostly a net emitter of both CH 4 and CO 2 , while showing positive net ecosystem production. The analyses suggest that during the whole study period, 32% ± 26% of C produced by net ecosystem production was ultimately converted to CH 4 and emitted to the atmosphere. When converted to global warming potential, CH 4 emission (in CO 2 equivalents) was about 3–10 times higher than CO 2 removal from in‐lake net ecosystem production over 100‐yr and 20‐yr time frames, respectively. Although more work in similar systems is needed to generalize these findings, our results provide evidence of the important greenhouse gas imbalance in human‐impacted aquatic systems.