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| Hüppi, Roman; Felber, Raphael; Krauss, Maike; Six, Johan; Leifeld, Jens; Fuß, Roland. |
| The static chamber approach is often used for greenhouse gas (GHG) flux measurements, whereby the flux is deduced from the increase of species concentration after closing the chamber. Since this increase changes diffusion gradients between chamber air and soil air, a nonlinear increase is expected. Lateral gas flow and leakages also contribute to non linearity. Several models have been suggested to account for this non linearity, the most recent being the Hutchinson±Mosier regression model (HMR). However, the practical application of these models is challenging because the researcher needs to decide for each flux whether a nonlinear fit is appropriate or exaggerates flux estimates due to measurement artifacts. In the latter case, a flux estimate from the... |
| Tipo: Journal paper |
Palavras-chave: Specific methods; Air and water emissions. |
| Ano: 2018 |
URL: http://orgprints.org/34683/1/hueppi_etal_2018_PlosOne_Vol13_Issue7-p1-17.pdf |
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