Groundwater–Surface Water Interaction: Process Understanding, Conceptualization and Modelling  (Proceedings of Symposium HS1002 at IUGG2007, Perugia, July 2007). IAHS Publ. 321, 2008, 11-20.

 

The role of alluvial valley deposits in groundwater–surface water exchange in a Chalk river

 

CORINNA ABESSER¹, Paul Shand^1,2, Daren Gooddy¹ & Denis Peach¹

1          British Geological Survey, Maclean Building, Crowmarsh Gifford, Wallingford OX10 8BB, UK

cabe@bgs.ac.uk

2          CSIRO, Land and Water, Adelaide, Australia

 

Abstract To understand the processes of surface water–groundwater exchange in Chalk catchments, a detailed hydrogeochemical study was carried out in the Lambourn catchment in southeast England. Monthly monitoring of river flow and groundwater levels and water chemistry has highlighted a large degree of heterogeneity at the river-corridor scale. The data suggest an irregular connection between the river, the alluvial deposits, and the Chalk aquifer at the study site. The groundwaters in the alluvial gravels represent a mixture of river water and deeper (Chalk) groundwaters, but simple two-component mixing is inconsistent with the data, and additional processes are required to explain the hydrogeochemistry in the alluvial deposits. It is concluded that the alluvial gravels form an important control on surface water–groundwater interactions at the study site and that the alluvial gravel deposits provide an important lateral flow pathway for pollutant transport along the river valley corridor.

 

Key words  groundwater–surface water interactions; alluvial deposits; Chalk; River Lambourn; LOCAR