Lubczynski et al., 2005 - Google Patents
Integration of various data sources for transient groundwater modeling with spatio-temporally variable fluxes—Sardon study case, SpainLubczynski et al., 2005
View PDF- Document ID
- 12130450575490179713
- Author
- Lubczynski M
- Gurwin J
- Publication year
- Publication venue
- Journal of hydrology
External Links
Snippet
Spatio-temporal variability of recharge (R) and groundwater evapotranspiration (ETg) fluxes in a granite Sardon catchment in Spain (∼ 80km2) have been assessed based on integration of various data sources and methods within the numerical groundwater …
- 239000003673 groundwater 0 title abstract description 182
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Lubczynski et al. | Integration of various data sources for transient groundwater modeling with spatio-temporally variable fluxes—Sardon study case, Spain | |
| Hattermann et al. | Runoff simulations on the macroscale with the ecohydrological model SWIM in the Elbe catchment–validation and uncertainty analysis | |
| Leta et al. | Assessment of climate change impacts on water balance components of Heeia watershed in Hawaii | |
| Scanlon et al. | Semiarid unsaturated zone chloride profiles: Archives of past land use change impacts on water resources in the southern High Plains, United States | |
| Maalim et al. | Modeling the impact of land use changes on runoff and sediment yield in the Le Sueur watershed, Minnesota using GeoWEPP | |
| Hassan et al. | Surface–groundwater interactions in hard rocks in Sardon Catchment of western Spain: An integrated modeling approach | |
| Lesack | Water balance and hydrologic characteristics of a rain forest catchment in the central Amazon basin | |
| Sarwar et al. | Development of a conjunctive use model to evaluate alternative management options for surface and groundwater resources | |
| Ebrahim et al. | Integrated hydrogeological modelling of hard-rock semi-arid terrain: supporting sustainable agricultural groundwater use in Hout catchment, Limpopo Province, South Africa | |
| Devitt et al. | Evapotranspiration of mixed shrub communities in phreatophytic zones of the Great Basin region of Nevada (USA) | |
| Watson et al. | Estimation of groundwater recharge via percolation outputs from a rainfall/runoff model for the Verlorenvlei estuarine system, west coast, South Africa | |
| Ala-Aho et al. | Estimation of temporal and spatial variations in groundwater recharge in unconfined sand aquifers using Scots pine inventories | |
| Hoang et al. | Enhancing the SWAT model for simulating denitrification in riparian zones at the river basin scale | |
| Alattar et al. | Modeling the surface water and groundwater budgets of the US using MODFLOW-OWHM | |
| Gebru et al. | GIS based water balance components estimation in northern Ethiopia catchment | |
| Pakparvar et al. | Artificial recharge efficiency assessment by soil water balance and modelling approaches in a multi-layered vadose zone in a dry region | |
| Xie et al. | Uncertainty assessment of spatial-scale groundwater recharge estimated from unsaturated flow modelling | |
| Salehi Siavashani et al. | Assessment of CHADFDM satellite‐based input dataset for the groundwater recharge estimation in arid and data scarce regions | |
| Mkaya | Evaluation of the impact of land use change on catchment hydrology: The case of Wundanyi River catchment in Taita Hills, Kenya | |
| Nozari et al. | Capturing Human-Crop-Groundwater Interactions: Modeling Real-world Agents in an Intensively Irrigated Region of the US High Plains | |
| Singh | Modification of root zone water quality model (RZWQM) to simulate the tillage effects on subsurface drain flows and nitrate-nitrogen movement | |
| Chin et al. | Quantification of Hydrologic Processes and Assessment of Rainfall-Runoff Models in Miami-Dade County, Florida | |
| Geyer et al. | A geo-archaeological approach to the study of hydro-agricultural systems in arid areas of Western Syria | |
| Olivera | Evaluation of the feasibility of a managed aquifer recharge through irrigation canals in the Lower Diguillín River basin, Chile | |
| Martinaitis | Effects of multi-sensor radar and rain gauge data on hydrologic modeling in relatively flat terrain |