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Middle Risle River critical zone observatory; monitoring karst-process evolution and its impact on surface water and on aquatic ecosystems

Pierre-Yann David, Didier Pennequin, Jean-Baptiste Charlier, Bernard Ladouche, Baptiste Meire, Veronique Feeny-Fereol, Stephane Helouin, Matthieu Fournier, Camille Riviere and Germain Sanson
Middle Risle River critical zone observatory; monitoring karst-process evolution and its impact on surface water and on aquatic ecosystems (in The chalk aquifers of northern Europe, R. P. Farrell (editor), N. Massei (editor), A. E. Foley (editor), P. R. Howlett (editor) and L. J. West (editor))
Special Publication - Geological Society of London (October 2022) 517: 93-113

Abstract

Rivers in karstic environments are known to be greatly influenced by surface water-groundwater interactions, with significant localized inflows during floods from springs, or with losses that can dry up rivers. The Middle Risle River is frequently affected by the development of sinkholes in a chalk karst area (Normandy, France). In the 2010s, two new major sinkholes in the riverbed caused a complete loss of water into the underlying phreatic aquifer, causing the river to dry up over several kilometres. The resulting changes in hydrogeological processes and surface water-groundwater interaction greatly affected water quality, water use and water-dependent ecosystems, causing a political crisis in this river-dependent touristic valley. To understand these phenomena and improve crisis management, the Middle Risle Critical Zone Observatory was set up to enhance monitoring, surveying and/or modelling of groundwater and river levels, river and spring flow, water temperature and conductivity, and ecosystem characteristics (fish, macro-invertebrates and vegetation). The results showed notable impacts on fish, macro-invertebrates and vegetation, some plants proving to be reliable indicators of surface-water-groundwater interaction. The dynamics of local hydrogeological processes were assessed and linked to the measured effects on ecosystems and water supply. Inverse modelling based on an analytical solution of the diffusive wave equation assessed lateral flow during floods, quantifying the spatial-temporal variability of surface-water and groundwater exchanges. It also highlighted the important role of karst zones in both storage and flood-peak attenuation processes, thereby protecting downstream villages against floods.


ISSN: 0305-8719
EISSN: 2041-4927
Coden: GSLSBW
Serial Title: Special Publication - Geological Society of London
Serial Volume: 517
Title: Middle Risle River critical zone observatory; monitoring karst-process evolution and its impact on surface water and on aquatic ecosystems
Title: The chalk aquifers of northern Europe
Author(s): David, Pierre-YannPennequin, DidierCharlier, Jean-BaptisteLadouche, BernardMeire, BaptisteFeeny-Fereol, VeroniqueHelouin, StephaneFournier, MatthieuRiviere, CamilleSanson, Germain
Author(s): Farrell, R. P.editor
Author(s): Massei, N.editor
Author(s): Foley, A. E.editor
Author(s): Howlett, P. R.editor
Author(s): West, L. J.editor
Affiliation: BRGM, Mont Saint-Aignan, France
Affiliation: Environment Agency, United Kingdom
Pages: 93-113
Published: 20221019
Text Language: English
Publisher: Geological Society of London, London, United Kingdom
References: 41
Accession Number: 2023-042002
Categories: HydrogeologyEnvironmental geology
Document Type: Serial
Bibliographic Level: Analytic
Illustration Description: illus. incl. sect., 3 tables, sketch maps
N49°00'00" - N49°00'00", E00°00'00" - E00°00'00"
N49°26'21" - N49°26'21", E00°22'21" - E00°22'21"
Secondary Affiliation: Universite de Montpellier, FRA, FranceDREAL Normandie, FRA, FranceUniversite de Rouen, FRA, FranceOFB Direction Regionale Normandie, FRA, FranceFDAAPPMA27, FRA, France
Country of Publication: United Kingdom
Secondary Affiliation: GeoRef, Copyright 2024, American Geosciences Institute.
Update Code: 202327
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