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A Three‐Stage Partitioning Framework for Modeling Mean Annual Groundwater Evapotranspiration.

Authors :
Zeng, Fanzhang
Zhang, Yu
Geurink, Jeffrey S.
Parajuli, Kshitij
Yao, Lili
Wang, Dingbao
Source :
Water Resources Research; Nov2024, Vol. 60 Issue 11, p1-15, 15p
Publication Year :
2024

Abstract

An analytical model is developed for mean annual groundwater evapotranspiration (GWET) at the watershed scale based on a three‐stage precipitation partitioning framework. The ratio of mean annual GWET to precipitation, defined as GWET ratio, is modeled as a function of climate aridity index (CAI), storage capacity index, the shape parameter 'a' for the spatial distribution of storage capacity, and the shape parameter 'b' for the spatial distribution of available water for GWET. In humid regions, GWET ratio tends to increase with increasing CAI due to the limited energy supply and shallower depth to water table (DWT) for a given storage capacity index. In contrast, in arid regions, the GWET ratio tends to decrease as the CAI increases because of the limited water availability and the presence of a deeper DWT for a given storage capacity index. In arid regions, the GWET ratio decreases as the parameter 'a' increases, mainly because of increased ET from a thicker unsaturated zone in environments with a deeper DWT. GWET ratio increases as parameter 'b' increases due to more watershed area with larger available water for GWET. The storage capacity index and shape parameters are estimated for 31 study watersheds in Tampa Bay Florida area based on the simulated GWET from an integrated hydrologic model and for 21 watersheds from literature. A possible correlation has been identified between the two shape parameters in the Tampa Bay watersheds. The analytical model for mean annual GWET can be further tested in other watersheds if data are available. Key Points: Mean annual groundwater evapotranspiration (GWET) is modeled by analytical equations through a three‐stage partitioning frameworkMean annual GWET increases initially and then declines with increase in climate aridity index for given parameter valuesShallow groundwater table in west‐central Florida results in similar spatial distributions of storage capacity and available water for GWET [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00431397
Volume :
60
Issue :
11
Database :
Complementary Index
Journal :
Water Resources Research
Publication Type :
Academic Journal
Accession number :
181153472
Full Text :
https://doi.org/10.1029/2024WR037248