Ideas and perspectives: Tracing terrestrial ecosystem water fluxes using hydrogen and oxygen stable isotopes – challenges and opportunities from an interdisciplinary perspective
In this commentary, we summarize and build upon discussions that emerged during the workshop “Isotope-based studies of water partitioning and plant–soil interactions in forested and agricultural environments” held in San Casciano in Val di Pesa, Italy, in September 2017. Quantifying and understandin...
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| Published in: | Biogeosciences Vol. 15; no. 21; pp. 6399 - 6415 |
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| Main Authors: | , , , , , , , , , , , , , , , , , , , , , , |
| Format: | Journal Article |
| Language: | English |
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30-10-2018
Copernicus Publications |
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| Abstract | In this commentary, we summarize and build upon discussions that
emerged during the workshop “Isotope-based studies of water partitioning and
plant–soil interactions in forested and agricultural environments” held in
San Casciano in Val di Pesa, Italy, in September 2017. Quantifying and
understanding how water cycles through the Earth's critical zone is important
to provide society and policymakers with the scientific background to manage
water resources sustainably, especially considering the ever-increasing
worldwide concern about water scarcity. Stable isotopes of hydrogen and
oxygen in water have proven to be a powerful tool for tracking water fluxes in
the critical zone. However, both mechanistic complexities (e.g. mixing and
fractionation processes, heterogeneity of natural systems) and methodological
issues (e.g. lack of standard protocols to sample specific compartments,
such as soil water and xylem water) limit the application of stable water
isotopes in critical-zone
science. In this commentary, we examine some of the
opportunities and critical challenges of isotope-based ecohydrological
applications and outline new perspectives focused on interdisciplinary
research opportunities for this important tool in water and environmental
science. |
|---|---|
| AbstractList | In this commentary, we summarize and build upon discussions that emerged during the workshop Isotope-based studies of water partitioning and plant-soil interactions in forested and agricultural environments held in San Casciano in Val di Pesa, Italy, in September 2017. Quantifying and understanding how water cycles through the Earth's critical zone is important to provide society and policymakers with the scientific background to manage water resources sustainably, especially considering the ever-increasing worldwide concern about water scarcity. Stable isotopes of hydrogen and oxygen in water have proven to be a powerful tool for tracking water fluxes in the critical zone. However, both mechanistic complexities (e.g. mixing and fractionation processes, heterogeneity of natural systems) and methodological issues (e.g. lack of standard protocols to sample specific compartments, such as soil water and xylem water) limit the application of stable water isotopes in critical-zone science. In this commentary, we examine some of the opportunities and critical challenges of isotope-based ecohydrological applications and outline new perspectives focused on interdisciplinary research opportunities for this important tool in water and environmental science. In this commentary, we summarize and build upon discussions that emerged during the workshop “Isotope-based studies of water partitioning and plant–soil interactions in forested and agricultural environments” held in San Casciano in Val di Pesa, Italy, in September 2017. Quantifying and understanding how water cycles through the Earth's critical zone is important to provide society and policymakers with the scientific background to manage water resources sustainably, especially considering the ever-increasing worldwide concern about water scarcity. Stable isotopes of hydrogen and oxygen in water have proven to be a powerful tool for tracking water fluxes in the critical zone. However, both mechanistic complexities (e.g. mixing and fractionation processes, heterogeneity of natural systems) and methodological issues (e.g. lack of standard protocols to sample specific compartments, such as soil water and xylem water) limit the application of stable water isotopes in critical-zone science. In this commentary, we examine some of the opportunities and critical challenges of isotope-based ecohydrological applications and outline new perspectives focused on interdisciplinary research opportunities for this important tool in water and environmental science. In this commentary, we summarize and build upon discussions that emerged during the workshop Isotope-based studies of water partitioning and plant–soil interactions in forested and agricultural environments held in San Casciano in Val di Pesa, Italy, in September 2017. Quantifying and understanding how water cycles through the Earth's critical zone is important to provide society and policymakers with the scientific background to manage water resources sustainably, especially considering the ever-increasing worldwide concern about water scarcity. Stable isotopes of hydrogen and oxygen in water have proven to be a powerful tool for tracking water fluxes in the critical zone. However, both mechanistic complexities (e.g. mixing and fractionation processes, heterogeneity of natural systems) and methodological issues (e.g. lack of standard protocols to sample specific compartments, such as soil water and xylem water) limit the application of stable water isotopes in critical-zone science. In this commentary, we examine some of the opportunities and critical challenges of isotope-based ecohydrological applications and outline new perspectives focused on interdisciplinary research opportunities for this important tool in water and environmental science. |
| Audience | Academic |
| Author | Penna, Daniele Hopp, Luisa Llorens, Pilar Schwendenmann, Luitgard Beyer, Matthias Volkmann, Till H. M Frentress, Jay von Freyberg, Jana Ceperley, Natalie Marshall, John D Dawson, Todd E Engel, Michael McDonnell, Jeff J Allen, Scott T Klaus, Julian Amin, Anam Geris, Josie Kirchner, James W Scandellari, Francesca Giambastiani, Yamuna Benettin, Paolo Zuecco, Giulia Siegwolf, Rolf T. W |
| Author_xml | – sequence: 1 fullname: Penna, Daniele – sequence: 2 fullname: Hopp, Luisa – sequence: 3 fullname: Scandellari, Francesca – sequence: 4 fullname: Allen, Scott T – sequence: 5 fullname: Benettin, Paolo – sequence: 6 fullname: Beyer, Matthias – sequence: 7 fullname: Geris, Josie – sequence: 8 fullname: Klaus, Julian – sequence: 9 fullname: Marshall, John D – sequence: 10 fullname: Schwendenmann, Luitgard – sequence: 11 fullname: Volkmann, Till H. M – sequence: 12 fullname: von Freyberg, Jana – sequence: 13 fullname: Amin, Anam – sequence: 14 fullname: Ceperley, Natalie – sequence: 15 fullname: Engel, Michael – sequence: 16 fullname: Frentress, Jay – sequence: 17 fullname: Giambastiani, Yamuna – sequence: 18 fullname: McDonnell, Jeff J – sequence: 19 fullname: Zuecco, Giulia – sequence: 20 fullname: Llorens, Pilar – sequence: 21 fullname: Siegwolf, Rolf T. W – sequence: 22 fullname: Dawson, Todd E – sequence: 23 fullname: Kirchner, James W |
| BackLink | https://res.slu.se/id/publ/96999$$DView record from Swedish Publication Index |
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| Snippet | In this commentary, we summarize and build upon discussions that
emerged during the workshop “Isotope-based studies of water partitioning and
plant–soil... In this commentary, we summarize and build upon discussions that emerged during the workshop Isotope-based studies of water partitioning and plant-soil... In this commentary, we summarize and build upon discussions that emerged during the workshop “Isotope-based studies of water partitioning and plant–soil... In this commentary, we summarize and build upon discussions that emerged during the workshop "Isotope-based studies of water partitioning and plant-soil... In this commentary, we summarize and build upon discussions that emerged during the workshop Isotope-based studies of water partitioning and plant–soil... |
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| SubjectTerms | Agricultural management Analysis Distribution Earth Ecohydrology Ecology Ekologi Environmental aspects Environmental science Fluxes Fractionation Heterogeneity Hydrogen Hydrogen isotopes Hydrologic cycle Interactions Interdisciplinary aspects Interdisciplinary research Interdisciplinary studies Isotopes Measurement Moisture content Oceanografi, hydrologi, vattenresurser Oceanography, Hydrology, Water Resources Oxygen Oxygen isotopes Soil Soil water Stable isotopes Terrestrial ecosystems Tracking Water cycle Water resource management Water resources Water resources management Water scarcity Xylem |
| Title | Ideas and perspectives: Tracing terrestrial ecosystem water fluxes using hydrogen and oxygen stable isotopes – challenges and opportunities from an interdisciplinary perspective |
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