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Peer Reviewed Literature
Authors

Yan Zhao, Bradford Sherman, Phillip Ford, Maud Demarty, Tonya DelSontro, Atle Harby, Alain Tremblay, Ida Beathe Øverjordet, Xinfeng Zhao, Bjørn Henrik Hansen, Bingfang Wu

Presented at

ASLO 2015 Association for the Sciences of Limnology and Oceanography

日期
十二月 1st, 2014
Abstract

Fluxes of carbon dioxide (CO2) and methane (CH4) from hydroelectric and water supply reservoirs are
receiving increasing attention around the world with a number of research groups having undertaken measurements
of these emissions across a range of lakes and reservoirs located in different climates and landscapes.
The use of floating chambers (aka flux chambers) is the most common technique for direct
measurement of these fluxes. However, the relative performance of different measurement systems, especially
different chamber designs, is not well documented. We report the results of an international workshop held
in June 2012 at Three Gorges Dam, China, to compare measurements performed by four groups with extensive
chamber monitoring experience: the Chinese Academy of Science (China), CSIRO (Australia), SINTEF
(Norway), Hydro-Qu!ebec/Environnement Illimit!e (Canada). A fifth group, Eawag (Switzerland), performed
hydroacoustic surveys to detect ebullition in the water column. We recommend CH4 as a more suitable trace
gas for comparing methodologies due to its relative stability in the surface layer of the water column, for
example, it is not subject to significant diurnal changes due to photosynthesis and respiration. Measured
fluxes agreed to within 20% between the four teams suggesting that the shape and dimensions of the floating
chambers and the chamber gas flow rates (i.e., chamber residence time) did not have an appreciable systematic
effect on the measured fluxes for the relatively low wind speeds prevalent at the reservoir. The CO2 and
CH4 fluxes measured during the workshop agree well with previous measurements in Three Gorges Reservoir.