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Article Dans Une Revue Water Resources Research Année : 2015

Incorporation of groundwater pumping in a global Land Surface Model with the representation of human impacts

Résumé

Observations indicate that groundwater levels are declining in many regions around the world. Simulating such depletion of groundwater at the global scale still remains a challenge because most global Land Surface Models (LSMs) lack the physical representation of groundwater dynamics in general and well pumping in particular. Here we present an integrated hydrologic model, which explicitly simulates ground-water dynamics and pumping within a global LSM that also accounts for human activities such as irrigation and reservoir operation. The model is used to simulate global water fluxes and storages with a particular focus on groundwater withdrawal and depletion in the High Plains Aquifer (HPA) and Central Valley Aquifer (CVA). Simulated global groundwater withdrawal and depletion for the year 2000 are 570 and 330 km 3 yr 21 , respectively; the depletion agrees better with observations than our previous model result without ground-water representation, but may still contain certain uncertainties and is on the higher side of other estimates. Groundwater withdrawals from the HPA and CVA are 22 and 9 km 3 yr 21 , respectively, which are also consistent with the observations of 24 and 13 km 3 yr 21 . The model simulates a significant decline in total terrestrial water storage in both regions as caused mainly by groundwater storage depletion. Ground-water table declined by 14 cm yr 21 in the HPA during 2003–2010; the rate is even higher (71 cm yr 21) in the CVA. These results demonstrate the potential of the developed model to study the dynamic relation-ship between human water use, groundwater storage, and the entire hydrologic cycle.
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Dates et versions

insu-01119768 , version 1 (24-02-2015)

Identifiants

Citer

Yadu N. Pokhrel, Sujan Koirala, Pat J.F. Yeh, Naota Hanasaki, Laurent Longuevergne, et al.. Incorporation of groundwater pumping in a global Land Surface Model with the representation of human impacts. Water Resources Research, 2015, 51 (1), pp.78-96. ⟨10.1002/2014WR015602⟩. ⟨insu-01119768⟩
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