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Estimating the drainage rate from surface soil moisture drydowns: Application of DfD model to in situ soil moisture data.
- Source :
-
Journal of Hydrology . Oct2018, Vol. 565, p489-501. 13p. - Publication Year :
- 2018
-
Abstract
- Highlights • DfD model is proposed to estimate drainage from soil moisture (SM) drydowns. • Soil hydraulic properties are encoded in the shape of SM recession scatter plot. • The model best operate in permeable soil and humid climate. • By using SM2RAIN and DfD jointly, rainfall is estimated from SM data only. • There is a good potential of applying DfD to satellite soil moisture data. Abstract The large heterogeneity in soil surface conditions makes it impracticable to obtain reliable estimates of soil hydraulic parameters for areas larger than few squared kilometers. However, identifying these parameters on a global scale is essential for many hydrological and climatic applications. In this study, a new approach named Drainage from Drydown (DfD) is proposed to estimate the coefficients of drainage using soil moisture observations. DfD firstly selects multiple drydown events when surface runoff and evapotranspiration rates are negligible compared to the drainage rate. Secondly, by inverting the soil water balance equation, the drainage coefficients are obtained. Synthetic experiments are carried out in order to tune the overall procedure. DfD is then tested with in situ observations at 8 different sites worldwide characterized by different climates and soil types. The reliability of the DfD is evaluated by using the DfD drainage coefficients in a physically based soil water balance model (SWB) for simulating soil moisture and a rainfall estimation model (SM2RAIN). The results indicate that the climate and the soil conditions exert an important role in the occurrence and magnitude of drainage rate. DfD is found capable of correctly identify periods in which drainage rate is the dominant process. Drainage coefficients obtained from DfD are consistent with the expected soil hydraulic properties based on the soil texture and land cover at each site. By using DfD drainage coefficients to estimate rainfall and soil moisture via SM2RAIN and SWB, promising results are obtained with median correlation of 0.83 and 0.91 between estimated and in situ data. However, in sites characterized by high rate of evapotranspiration (>700 mm/year) and low permeable soil (e.g., clay) the DfD performance is reduced. Overall, DfD demonstrates the ability to decouple drainage and evapotranspiration processes and to estimate the drainage coefficients from in situ observations. [ABSTRACT FROM AUTHOR]
- Subjects :
- *SOIL moisture
*DRAINAGE
*SOIL permeability
*RAINFALL
*EVAPOTRANSPIRATION
Subjects
Details
- Language :
- English
- ISSN :
- 00221694
- Volume :
- 565
- Database :
- Academic Search Index
- Journal :
- Journal of Hydrology
- Publication Type :
- Academic Journal
- Accession number :
- 131966213
- Full Text :
- https://doi.org/10.1016/j.jhydrol.2018.08.035