Hydrograph separation using stable isotopes: Review and evaluation

•We reviewed isotope hydrograph separation studies.•We examine methods, applications, and limitations.•We summarize factors that control the event/pre-event water contributions.•We outline new possible research avenues in isotope hydrograph separation. The separation of storm hydrographs using stabl...

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Published in	Journal of hydrology (Amsterdam) Vol. 505; pp. 47 - 64
Main Authors	Klaus, J., McDonnell, J.J.
Format	Journal Article
Language	English
Published	Kidlington Elsevier B.V 15.11.2013 Elsevier
Subjects	bound water Earth sciences Earth, ocean, space Exact sciences and technology groundwater Hydrogeology Hydrograph separation Hydrology Hydrology. Hydrogeology Isotope geochemistry Isotope geochemistry. Geochronology Isotopes rain Runoff generation sampling snowmelt soil water stable isotopes stormwater streams watersheds Runoff generation Isotopes Hydrograph separation stable isotopes models lysimeters rainfall tracers streams sampling ground water runoff drainage basins aquifers channels soils flow hydrographs storms
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Abstract	•We reviewed isotope hydrograph separation studies.•We examine methods, applications, and limitations.•We summarize factors that control the event/pre-event water contributions.•We outline new possible research avenues in isotope hydrograph separation. The separation of storm hydrographs using stable isotope tracers dates back to the late 1960s. These studies ushered in a paradigm shift in how hydrologists conceptualized runoff generation as most showed a large preponderance of pre-event water in the storm hydrograph, even at peak flow. This forced a fundamental re-examination of the processes of water delivery to streams during rainfall and snowmelt events. Whilst the simplicity of the two-component hydrograph separation was a powerful tool for showing the importance of stored water effusion, the assumptions implicit in the two-component model have now become limiting for further advancement of the approach. Here we review the use of stable isotopes for hydrograph separation with particular reference to studies completed since the last comprehensive review of the subject in 1994. We review critically the contributions to new field knowledge gained by isotope hydrograph separation applications. We focus specifically on the current issues regarding the limitations of the two-component approach. We examine the role of soil water as a contributor to channel stormflow and the issues raised by differences in the soil water and groundwater signatures at the watershed scale. Finally, we offer ideas on how to overcome the limitations of the two-component approach and present a vision for future directions for isotope based hydrograph separation. These future directions are focused on high frequency analysis of rainfall-runoff structures and dual isotope analysis of catchment end-members including comparison of lysimeter-based soil water sampling of mobile soil water versus cryogenic and vapor-based analysis of tightly bound water.
AbstractList	The separation of storm hydrographs using stable isotope tracers dates back to the late 1960s. These studies ushered in a paradigm shift in how hydrologists conceptualized runoff generation as most showed a large preponderance of pre-event water in the storm hydrograph, even at peak flow. This forced a fundamental re-examination of the processes of water delivery to streams during rainfall and snowmelt events. Whilst the simplicity of the two-component hydrograph separation was a powerful tool for showing the importance of stored water effusion, the assumptions implicit in the two-component model have now become limiting for further advancement of the approach. Here we review the use of stable isotopes for hydrograph separation with particular reference to studies completed since the last comprehensive review of the subject in 1994. We review critically the contributions to new field knowledge gained by isotope hydrograph separation applications. We focus specifically on the current issues regarding the limitations of the two-component approach. We examine the role of soil water as a contributor to channel stormflow and the issues raised by differences in the soil water and groundwater signatures at the watershed scale. Finally, we offer ideas on how to overcome the limitations of the two-component approach and present a vision for future directions for isotope based hydrograph separation. These future directions are focused on high frequency analysis of rainfall-runoff structures and dual isotope analysis of catchment end-members including comparison of lysimeter-based soil water sampling of mobile soil water versus cryogenic and vapor-based analysis of tightly bound water. •We reviewed isotope hydrograph separation studies.•We examine methods, applications, and limitations.•We summarize factors that control the event/pre-event water contributions.•We outline new possible research avenues in isotope hydrograph separation. The separation of storm hydrographs using stable isotope tracers dates back to the late 1960s. These studies ushered in a paradigm shift in how hydrologists conceptualized runoff generation as most showed a large preponderance of pre-event water in the storm hydrograph, even at peak flow. This forced a fundamental re-examination of the processes of water delivery to streams during rainfall and snowmelt events. Whilst the simplicity of the two-component hydrograph separation was a powerful tool for showing the importance of stored water effusion, the assumptions implicit in the two-component model have now become limiting for further advancement of the approach. Here we review the use of stable isotopes for hydrograph separation with particular reference to studies completed since the last comprehensive review of the subject in 1994. We review critically the contributions to new field knowledge gained by isotope hydrograph separation applications. We focus specifically on the current issues regarding the limitations of the two-component approach. We examine the role of soil water as a contributor to channel stormflow and the issues raised by differences in the soil water and groundwater signatures at the watershed scale. Finally, we offer ideas on how to overcome the limitations of the two-component approach and present a vision for future directions for isotope based hydrograph separation. These future directions are focused on high frequency analysis of rainfall-runoff structures and dual isotope analysis of catchment end-members including comparison of lysimeter-based soil water sampling of mobile soil water versus cryogenic and vapor-based analysis of tightly bound water.
Author	Klaus, J. McDonnell, J.J.
Author_xml	– sequence: 1 givenname: J. surname: Klaus fullname: Klaus, J. email: klaus@lippmann.lu organization: Centre de Recherche Public - Gabriel Lippmann, Department of Environment and Agro-Biotechnologies, L-4422 Belvaux, Luxembourg – sequence: 2 givenname: J.J. surname: McDonnell fullname: McDonnell, J.J. organization: Global Institute for Water Security, University of Saskatchewan, 11 Innovation Boulevard, Saskatoon, SK S7N 3H5, Canada
BackLink	http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=27961344$$DView record in Pascal Francis
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Snippet	•We reviewed isotope hydrograph separation studies.•We examine methods, applications, and limitations.•We summarize factors that control the event/pre-event... The separation of storm hydrographs using stable isotope tracers dates back to the late 1960s. These studies ushered in a paradigm shift in how hydrologists...
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SubjectTerms	bound water Earth sciences Earth, ocean, space Exact sciences and technology groundwater Hydrogeology Hydrograph separation Hydrology Hydrology. Hydrogeology Isotope geochemistry Isotope geochemistry. Geochronology Isotopes rain Runoff generation sampling snowmelt soil water stable isotopes stormwater streams watersheds
Title	Hydrograph separation using stable isotopes: Review and evaluation
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