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  4. Using satellite-based estimates of evapotranspiration and groundwater changes to determine anthropogenic water fluxes in land surface models
 
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Using satellite-based estimates of evapotranspiration and groundwater changes to determine anthropogenic water fluxes in land surface models

Journal
Geoscientific Model Development
Journal Volume
8
Journal Issue
10
Pages
3021-3031
Date Issued
2015
Author(s)
Anderson, R.G.
MIN-HUI LO  
Swenson, S.
Famiglietti, J.S.
Tang, Q.
Skaggs, T.H.
Lin, Y.-H.
Wu, R.-J.
DOI
10.5194/gmd-8-3021-2015
URI
http://www.scopus.com/inward/record.url?eid=2-s2.0-84942943936&partnerID=MN8TOARS
http://scholars.lib.ntu.edu.tw/handle/123456789/391464
Abstract
Irrigation is a widely used water management practice that is often poorly parameterized in land surface and climate models. Previous studies have addressed this issue via use of irrigation area, applied water inventory data, or soil moisture content. These approaches have a variety of drawbacks including data latency, accurately prescribing irrigation intensity, and a lack of conservation of water volume for models using a prescribed soil moisture approach. In this study, we parameterize irrigation fluxes using satellite observations of evapotranspiration (ET) compared to ET from a suite of land surface models without irrigation. We then incorporate the irrigation flux into the Community Land Model (CLM) and use a systematic trial-and-error procedure to determine the ground- and surface-water withdrawals that are necessary to balance the new irrigation flux. The resulting CLM simulation with irrigation produces ET that matches the magnitude and seasonality of observed satellite ET well, with a mean difference of 6.3 mm month-1 and a correlation of 0.95. Differences between the new CLM ET values and satellite-observed ET values are always less than 30 mm month-1 and the differences show no pattern with respect to seasonality. The results reinforce the importance of accurately parameterizing anthropogenic hydrologic fluxes into land surface and climate models to assess environmental change under current and future climates and land management regimes. © Author(s) 2015.
SDGs

[SDGs]SDG13

Other Subjects
anthropogenic effect; climate modeling; evapotranspiration; groundwater; irrigation system; land surface; model test; parameterization; satellite data; soil moisture; water exchange
Type
journal article

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