Temporal dynamics of soil water balance components in a karst range in southeastern Spain: estimation of potential recharge

Cantón, Yolanda; Villagarcı́a, L.; Moro, M.J.; Serrano-Ortíz, Penélope; Were, A.; Alcalá, Francisco; Kowalski, Andrew S.; Solé‐Benet, Albert; Lázaro, Roberto; Domingo, Francisco

doi:10.1080/02626667.2010.490530

Cited by 28 publications

(25 citation statements)

References 60 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The observed seasonal dynamics of soil moisture, dominated by short wetting phases during single rainfall events and a rapid decrease after the rainfall season, are comparable with observations reported in other studies in the Mediterranean region (Cantón et al, 2010;Ruiz-Sinoga et al, 2011). At all soil moisture plots, our soil moisture data suggested fast infiltration into deeper sections of the soil profile during rainfall events with high intensities and amounts (e.g.…”

Section: Soil Moisture Dynamicssupporting

confidence: 80%

“…very close to the long-term average calculated by Schmidt et al (2014) for the same area. Our values also fall into the range of Cantón et al (2010), who derived annual effective evapotranspiration rates of more than 64 % of annual rainfall based on eddy covariance measurements in southeastern semi-arid Spain. Our simulated percolation rates ranged between 0 and 45 % of precipitation (arithmetic mean: 28 %) indicating strong inter-annual variability and a strong dependency on depth and temporal distribution of precipitation.…”

Section: Simulation Of the Plot-scale Water Balancementioning

confidence: 99%

See 1 more Smart Citation

Recharge estimation and soil moisture dynamics in a Mediterranean, semi-arid karst region

Ries

Lange

Schmidt³

et al. 2015

Hydrol. Earth Syst. Sci.

View full text Add to dashboard Cite

Abstract. Knowledge of soil moisture dynamics in the unsaturated soil zone provides valuable information on the temporal and spatial variability of groundwater recharge. This is especially true for the Mediterranean region, where a substantial fraction of long-term groundwater recharge is expected to occur during high magnitude precipitation events of aboveaverage wet winters. To elucidate process understanding of infiltration processes during these extreme events, a monitoring network of precipitation gauges, meteorological stations, and soil moisture plots was installed in an area with a steep climatic gradient in the Jordan Valley region. In three soil moisture plots, Hydrus-1D was used to simulate water movement in the unsaturated soil zone with soil hydraulic parameters estimated by the Shuffled Complex Evolution Metropolis algorithm. To generalize our results, we modified soil depth and rainfall input to simulate the effect of the pronounced climatic gradient and soil depth variability on percolation fluxes and applied the calibrated model to a time series with 62 years of meteorological data.Soil moisture measurements showed a pronounced seasonality and suggested rapid infiltration during heavy rainstorms. Hydrus-1D successfully simulated short and longterm soil moisture patterns, with the majority of simulated deep percolation occurring during a few intensive rainfall events. Temperature drops in a nearby groundwater well were observed synchronously with simulated percolation pulses, indicating rapid groundwater recharge mechanisms. The 62-year model run yielded annual percolation fluxes of up to 66 % of precipitation depths during wet years and of 0 % during dry years. Furthermore, a dependence of recharge on the temporal rainfall distribution could be shown. Strong correlations between depth of recharge and soil depth were also observed.

show abstract

Section: Soil Moisture Dynamicssupporting

confidence: 80%

Section: Simulation Of the Plot-scale Water Balancementioning

confidence: 99%

Recharge estimation and soil moisture dynamics in a Mediterranean, semi-arid karst region

Ries

Lange

Schmidt³

et al. 2015

Hydrol. Earth Syst. Sci.

View full text Add to dashboard Cite

show abstract

“…They have been carried out in Sierra de Gádor (Alcalá et al, 2011;Cantón et al;, Campo de Cartagena (Baudron et al, 2014;Jiménez-Martínez et al, 2010), highlands of the Río Mundo , and some of the karstic formations in the north-eastern sector (Andreu Rodes, 2011;Martínez-Santos and Andreu Rodes, 2010;Touhami et al, 2012;. Only a few times results have been calibrated against groundwater level and spring flow data, mostly because these data are not available or too sparse.…”

Section: Hydrogeological Characteristics and Intensive Exploitation Amentioning

confidence: 99%

Groundwater intensive use and mining in south-eastern peninsular Spain: Hydrogeological, economic and social aspects

Custódio

Andreu-Rodes

Aragón

et al. 2016

Science of The Total Environment

View full text Add to dashboard Cite

show abstract

“…However, SWC exhibits a high degree of spatial and temporal variability and this variability is scale-dependent (Blöschl and Sivapalan 1995, Western et al 2002, Cantón et al 2010. Understanding the distribution and variability characteristics of SWC is necessary for sustainable land management evaluation, developing farm-specific best management plans and hydrology and climate modelling (Qiu et al 2003, Western et al 2004, Ampofo 2006.…”

Section: Regional Spatial Pattern Of Deep Soil Water Content and Its mentioning

confidence: 99%

Regional spatial pattern of deep soil water content and its influencing factors

Wang

Shao

Liu

et al. 2012

Hydrological Sciences Journal

View full text Add to dashboard Cite

., 2012. Regional spatial pattern of deep soil water content and its influencing factors. Hydrological Sciences Journal, 57 (2), 265-281.Abstract Plant root systems can utilize soil water to depths of 10 m or more. Spatial pattern data of deep soil water content (SWC) at the regional scale are scarce due to the labour and time constraints of field measurements. We measured gravimetric deep SWC (DSWC) at depths of 200, 300, 400, 500, 600, 800 and 1000 cm at 382 sites across the Loess Plateau, China. The coefficient of variation was high for soil water content (SWC) in the horizontal direction (48%), but was relatively small for SWC in the vertical direction (9%). Semivariogram ranges for DSWC at different depths were between 198 and 609 km. Kriged distribution maps indicated that deep soil layers became moister along northwest to southeast transects. Multiple statistical analyses related DSWC to plant characteristics (e.g. plant age explained >21% of the variability), geographical location and altitude (8-13%), soil texture and infiltrability, evaporation zone and eco-hydrological processes (P < 0.05). Regional land management decisions can be based on our DSWC distribution data to determine land uses and plant species appropriate for the soil type and location that would maintain a stable soil water balance. Maintaining infiltrability is of great importance in this and other water-scarce regions of the world.Key words spatial variability; land-use management; geostatistics; multiple linear regression; residual maximum likelihood analysis; Loess Plateau of China Répartition spatiale régionale du contenu en eau des sols profonds et des facteurs qui l'influencent Résumé Les systèmes racinaires des plantes peuvent utiliser l'eau du sol à des profondeurs de 10 m ou plus. Les données de répartition spatiale du contenu en eau des sols profonds (SWC) à l'échelle régionale sont rares en raison des contraintes de main d'oeuvre et de temps des mesures sur le terrain. Nous avons mesuré le contenu en eau du sol (CES) gravimétrique profond (CESP) à des profondeurs de 200, 300, 400, 500, 600, 800 et 1000 cm sur 382 sites à travers le plateau de loess, en Chine. Le coefficient de variation était élevé pour le CES dans le sens horizontal (48%), mais était relativement faible pour le CES dans le sens vertical (9%). Les gammes des semi-variogrammes pour le CESP à différentes profondeurs allaient de 198 à 609 km. Les cartes de répartition krigées ont indiqué que les couches profondes du sol devenaient plus humides le long de transects nord-ouest au sud-est. De multiples analyses statistiques ont relié le CESP aux caractéristiques des plantes (par exemple, l'âge des plantes expliquait plus de 21% de la variabilité), à la localisation géographique et à l'altitude (8-13%), à la texture et l'infiltrabilité du sol, à la zone d'évaporation et aux processus éco-hydrologiques (P < 0,05). Les décisions régionales de gestion foncière peuvent être basées sur nos données de distribution de CESP pour déterminer l'occupation du sol et les espèce...

show abstract

Temporal dynamics of soil water balance components in a karst range in southeastern Spain: estimation of potential recharge

Cited by 28 publications

References 60 publications

Recharge estimation and soil moisture dynamics in a Mediterranean, semi-arid karst region

Recharge estimation and soil moisture dynamics in a Mediterranean, semi-arid karst region

Groundwater intensive use and mining in south-eastern peninsular Spain: Hydrogeological, economic and social aspects

Regional spatial pattern of deep soil water content and its influencing factors

Contact Info

Product

Resources

About