Publikationsdatum:
2014-02-18
Beschreibung:
[1] Stable isotopic measurements of water provide a promising tool for partitioning of ecosystem evapotranspiration (ET). This approach, however, is still facing some challenges due to the uncertainties in estimating the isotopic compositions of ET and its components. In this study, a tunable diode laser analyzer was deployed for in situ measurements of the oxygen isotopic compositions of water vapor. Using these measurements together with samples of water in plant and soil pools, we attempted to partition ET via estimating the oxygen isotopic compositions of ET ( δ ET ) and that of its two components, i.e., plant transpiration ( δ T ) and soil water evaporation ( δ E ). A new δ T model was developed in this study, which illustrated consistent estimations with the traditional model. Most of the variables and parameters in the new model can be measured directly with high accuracy, making its potential to be used at other sites high. Our results indicate that the ratio of plant transpiration to evapotranspiration ( T /ET) illustrates a ‘U’ shape diurnal pattern. Mean T /ET at 0630-1830 during the sampling days was 83%. Soil depth of 15 cm is a reasonable depth for soil water sampling for estimating δ E at this site. Sampling water at a too shallow depth may bring in biased δ E estimation when soil moisture is very low. We also investigated the uncertainties in estimating these three terms and their effects on partitioning. Overall, in terms of partitioning, the uncertainties are relatively small from δ T and δ E , but quite large from δ ET . Quantifying and improving the precision of δ ET should be a priority in future endeavors of ET partitioning via the stable isotopic approach.
Print ISSN:
0148-0227
Thema:
Biologie
,
Geologie und Paläontologie
Permalink