Emmanuelle Petelet‐Giraud scite author profile

Nitrate (NO3) is one of the world's major pollutants of drinking water resources. Although recent European Directives have reduced input from intensive agriculture, NO3 levels in groundwater are approaching the drinking water limit of 50 mg L(-1) almost everywhere. Determining the sources of groundwater contamination is an important first step toward improving its quality by emission control. It is with this aim that we review here the benefit of using a coupled isotopic approach (delta15N and delta11B), in addition to conventional hydrogeological analyses, to trace the origin of NO3 in water. The studied watersheds include both fractured bedrock and alluvial (subsurface and deep) hydrogeological contexts. The joint use of nitrogen and boron isotope systematics in each context deciphers the origin of NO3 in the groundwater and allows a semi-quantification of the contributions of the respective pollution sources (mineral fertilizers, wastewater, and animal manure).

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Applications of stable water and carbon isotopes in watershed research: Weathering, carbon cycling, and water balances

Schulte

Geldern

Freitag

et al. 2011

Earth-Science Reviews

162

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Research on rivers has traditionally involved concentration and flux measurements to better understand weathering, transport and cycling of materials from land to ocean. As a relatively new tool, stable isotope measurements complement this type of research by providing an extra label to characterize origin of the transported material, its transfer mechanisms, and natural versus anthropogenic influences. These new stable isotope techniques are scalable across a wide range of geographic and temporal scales. This review focuses on three aspects of hydrological and geochemical river research that are of prime importance to the policy issues of climate change and include utilization of stable water and carbon isotopes: (i) silicate and carbonate weathering in river basins, (ii) the riverine carbon and oxygen cycles, and (iii) water balances at the catchment scale. Most studies at watershed scales currently focus on water and carbon balances but future applications hold promise to integrate sediment fluxes and turnover, ground and surface water interactions, as well as the understanding of contaminant sources and their effects in river systems. Contents 2.1. Weathering and stable isotopes of water and carbon 2.2. Case study on the Lagan River (Northern Ireland) 3. The riverine carbon cycle 4. Water fluxes in river catchments 4.1. Water transport and mixing 4.2. Runoff and evapotranspiration 4.3. Case study of stable isotope application in the Ebro Basin 4.4. Evaluation of transpiration fluxes 4.5. Case studies of water and carbon transpiration fluxes on watershed scales 5. Conclusions and challenges for future work

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Multi-isotopic composition (δ7Li–δ11B–δD–δ18O) of rainwaters in France: Origin and spatio-temporal characterization

Millot

Petelet‐Giraud

Guerrot

et al. 2010

Applied Geochemistry

116

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HAL is a multidisciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L'archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d'enseignement et de recherche français ou étrangers, des laboratoires publics ou privés.

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Surface water–groundwater interactions in an alluvial plain: Chemical and isotopic systematics

Négrel

Petelet‐Giraud

Barbier

et al. 2003

Journal of Hydrology

123

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Strontium isotopes as tracers of groundwater-induced floods: the Somme case study (France)

Négrel

Petelet‐Giraud

2005

Journal of Hydrology

114

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