Determining the Oxygen Isotope Composition of Evapotranspiration Using Eddy Covariance
| Autor: | John M. Baker, K. Billmark, M. Erickson, Xuhui Lee, J. Greene, Ning Hu, Timothy J. Griffis, Xin Zhang, Wei Xiao, Steven D. Sargent, Natalie M. Schultz |
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| Rok vydání: | 2010 |
| Předmět: | |
| Zdroj: | Boundary-Layer Meteorology. 137:307-326 |
| ISSN: | 1573-1472 0006-8314 |
| Popis: | The oxygen isotope composition of evapotranspiration (δ F ) represents an important tracer in the study of biosphere–atmosphere interactions, hydrology, paleoclimate, and carbon cycling. Here, we demonstrate direct measurement of δ F based on the eddy-covariance and tunable diode laser spectroscopy (EC-TDL) techniques. Results are presented from laboratory experiments and field measurements in agricultural ecosystems. The field measurements were obtained during the growing seasons of 2008 and 2009. Water vapour mixing ratios (χ w ) and fluxes (F) were compared using EC-TDL and traditional eddy-covariance and infrared gas analyser techniques over a soybean canopy in 2008. The results indicate that χ w and F agreed to within 1 and 6%, respectively. Measurements of δ F above a corn canopy in 2009 revealed a diurnal pattern with an expected progressive 18O enrichment through the day ranging from about −20‰ before sunrise to about −5‰ in late afternoon. The isotopic composition of evapotranspiration was similar to the xylem water isotope composition (δ x = −7.2‰) for short periods of time during 1400–1800 LST, indicating near steady-state conditions. Finally, the isotopic forcing values (I F ) revealed a diurnal pattern with mean maximum values of 0.09ms−1‰ at midday. The I F values could be described as an exponential relation of relative humidity confirming previous model calculations and measurements over a soybean canopy in 2006. These patterns and comparisons indicate that long-term continuous isotopic water vapour flux measurements based on the eddy-covariance technique are feasible and can provide new insights related to the oxygen isotope fractionation processes at the canopy scale. |
| Databáze: | OpenAIRE |
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