Combination of lumped hydrological and remote-sensing models to evaluate water resources in a semi-arid high altitude ungauged watershed of Sierra Nevada (Southern Spain)

Combination of lumped hydrological and remote-sensing models to evaluate water resources in a semi-arid high altitude ungauged watershed of Sierra Nevada (Southern Spain)

Assessing water resources in high mountain semi-arid zones is essential to be able to manage and plan the use of these resources downstream where they are used. However, it is not easy to manage an unknown resource, a situation that is common in the vast majority of high mountain hydrological basins...

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Veröffentlicht in:The Science of the total environment 2018-06, Vol.625, p.285-300
Hauptverfasser: Jódar, J., Carpintero, E., Martos-Rosillo, S., Ruiz-Constán, A., Marín-Lechado, C., Cabrera-Arrabal, J.A., Navarrete-Mazariegos, E., González-Ramón, A., Lambán, L.J., Herrera, C., González-Dugo, M.P.
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Sprache:eng
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Evapotranspiration
HBV
Remote sensing
Ungauged basins
Vegetation indices
Water resources management
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container_end_page 300
container_issue
container_start_page 285
container_title The Science of the total environment
container_volume 625
creator Jódar, J.
Carpintero, E.
Martos-Rosillo, S.
Ruiz-Constán, A.
Marín-Lechado, C.
Cabrera-Arrabal, J.A.
Navarrete-Mazariegos, E.
González-Ramón, A.
Lambán, L.J.
Herrera, C.
González-Dugo, M.P.
description Assessing water resources in high mountain semi-arid zones is essential to be able to manage and plan the use of these resources downstream where they are used. However, it is not easy to manage an unknown resource, a situation that is common in the vast majority of high mountain hydrological basins. In the present work, the discharge flow in an ungauged basin is estimated using the hydrological parameters of an HBV (Hydrologiska Byråns Vattenbalansavdelning) model calibrated in a “neighboring gauged basin”. The results of the hydrological simulation obtained in terms of average annual discharge are validated using the VI-ETo model. This model relates a simple hydrological balance to the discharge of the basin with the evaporation of the vegetal cover of the soil, and this to the SAVI index, which is obtained remotely by means of satellite images. The results of the modeling for both basins underscore the role of the underground discharge in the total discharge of the hydrological system. This is the result of the deglaciation process suffered by the high mountain areas of the Mediterranean arc. This process increases the infiltration capacity of the terrain, the recharge and therefore the discharge of the aquifers that make up the glacial and periglacial sediments that remain exposed on the surface as witnesses of what was the last glaciation. [Display omitted] •VI-ETo model used to estimate annual discharge of ungauged high-mountain basins.•The HBV model is used to validate the VI-ETo model results.•Groundwater discharge controls the Bérchules watershed hydrological dynamics.•Deglaciation modifies the response of High Mountain the rivers in low latitude basins.•Reforested trees evapotranspirate the same water as crop irrigation in Sierra Nevada.
doi_str_mv 10.1016/j.scitotenv.2017.12.300
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source Elsevier ScienceDirect Journals
subjects Evapotranspiration
HBV
Remote sensing
Ungauged basins
Vegetation indices
Water resources management
title Combination of lumped hydrological and remote-sensing models to evaluate water resources in a semi-arid high altitude ungauged watershed of Sierra Nevada (Southern Spain)
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