International audienceModels of varying complexity are available to provide estimates of recharge in headwater Chalk catchments. Some measure of how estimates vary between different models can help guide the choice of model for a particular application. This paper compares recharge estimates derived from four models employing input data at varying spatial resolutions for a Chalk headwater catchment (River Pang, UK) over a four-year period (1992-1995) that includes a range of climatic conditions. One model was validated against river flow data to provide a measure of their relative performance. Each model gave similar total recharge for the crucial winter recharge period when evaporation is low. However, the simple models produced relatively...
Projections of climate for the 2080s from an ensemble of global climate models (GCMs) run under a me...
This article presents the development of a relatively low cost and rapidly applicable methodology to...
Model conceptualisation is a key source of uncertainty in one-dimensional recharge modelling. The ef...
International audienceA simple, practical model for estimating daily recharge - as hydrologically ef...
A simple, practical model for estimating daily recharge - as hydrologically effective rainfall (HER)...
Numerical models are frequently used for the regional quantification of groundwater recharge. Howeve...
Groundwater from unconfined chalk aquifers constitutes a major water resource in the UK. The unsatur...
Abstract not availableJRC.H-Institute for environment and sustainability (Ispra
Groundwater recharge estimates are required for water resource management and the investigation of w...
The importance of the Chalk aquifer as a groundwater source and the uncertainty associated with the...
Groundwater catchment boundaries and their associated groundwater catchment areas are typically assu...
Study region The study uses 78 groundwater head time series across 10 European countries with var...
Chalk is an important aquifer in England. Because of the highly permeable nature of the subsurface, ...
Determining recharge rates is critical for understanding and managing groundwater systems. This stud...
There is evidence that, under certain conditions, rapid preferential recharge via the frac-ture netw...
Projections of climate for the 2080s from an ensemble of global climate models (GCMs) run under a me...
This article presents the development of a relatively low cost and rapidly applicable methodology to...
Model conceptualisation is a key source of uncertainty in one-dimensional recharge modelling. The ef...
International audienceA simple, practical model for estimating daily recharge - as hydrologically ef...
A simple, practical model for estimating daily recharge - as hydrologically effective rainfall (HER)...
Numerical models are frequently used for the regional quantification of groundwater recharge. Howeve...
Groundwater from unconfined chalk aquifers constitutes a major water resource in the UK. The unsatur...
Abstract not availableJRC.H-Institute for environment and sustainability (Ispra
Groundwater recharge estimates are required for water resource management and the investigation of w...
The importance of the Chalk aquifer as a groundwater source and the uncertainty associated with the...
Groundwater catchment boundaries and their associated groundwater catchment areas are typically assu...
Study region The study uses 78 groundwater head time series across 10 European countries with var...
Chalk is an important aquifer in England. Because of the highly permeable nature of the subsurface, ...
Determining recharge rates is critical for understanding and managing groundwater systems. This stud...
There is evidence that, under certain conditions, rapid preferential recharge via the frac-ture netw...
Projections of climate for the 2080s from an ensemble of global climate models (GCMs) run under a me...
This article presents the development of a relatively low cost and rapidly applicable methodology to...
Model conceptualisation is a key source of uncertainty in one-dimensional recharge modelling. The ef...