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W2765569477 abstract "Floating chambers are widely used to estimate gas fluxes at the air–water interface of surface waters especially to assess greenhouse gas emissions from manmade lakes and reservoirs. The fluxes measured by the chamber method, however, can be significantly biased, as the chamber itself is an intrusive gas flux monitoring method based on measuring gradient changes within the chamber, which are very sensitive to turbulent transport properties at the interface. The relevant parameters are: (i) the measurement time, (ii) the volume to area ratio, (iii) the gas transfer velocity, and (iv) the gas solubility. In this paper we perform an analytical estimation of the uncertainties associated to interferences of the chamber on the flux measurements. We showed that the dominating overestimation factor is driven by artificially-enhanced turbulence due to the chamber deployment which explains the heterogeneous experimental results in literature. We proposed a correction method to reduce uncertainties in gas estimatives and will allow compare measurements with different chamber designs." @default.
W2765569477 created "2017-11-10" @default.
W2765569477 creator A5024584999 @default.
W2765569477 creator A5026650847 @default.
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W2765569477 date "2019-10-01" @default.
W2765569477 modified "2023-09-24" @default.
W2765569477 title "Uncertainty analysis of gas flux measurements at air–water interface using floating chambers" @default.
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W2765569477 doi "https://doi.org/10.1016/j.ecohyd.2017.09.002" @default.
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