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HESS Opinions "A perspective on isotope versus non-isotope approaches to determine the contribution of transpiration to total evaporation"
Current techniques to disentangle the evaporative fluxes from the continental surface into a contribution evaporated from soils and canopy, or transpired by plants, are under debate. Many isotope-based studies show that transpiration contributes generally more than 70% to the total evaporation, whil...
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| Published in: | Hydrology and earth system sciences 2014-08, Vol.18 (8), p.2815-2827 |
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| container_title | Hydrology and earth system sciences |
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| creator | Sutanto, S. J van den Hurk, B Dirmeyer, P. A Seneviratne, S. I Röckmann, T Trenberth, K. E Blyth, E. M Wenninger, J Hoffmann, G |
| description | Current techniques to disentangle the evaporative fluxes from the continental surface into a contribution evaporated from soils and canopy, or transpired by plants, are under debate. Many isotope-based studies show that transpiration contributes generally more than 70% to the total evaporation, while other isotope-independent techniques lead to considerably smaller transpiration fractions. This paper provides a perspective on isotope-based versus non-isotope-based partitioning studies. Some partitioning results from isotope-based methods, hydrometric measurements, and modeling are presented for comparison. Moreover, the methodological aspects of the partitioning analysis are considered, including their limitations, and explanations of possible discrepancies between the methods are discussed. We suggest sources of systematic error that may lead to biases in the results, e.g., instruments inaccuracy, assumptions used in analyses, and calibration parameters. A number of comparison studies using isotope-based methods and hydrometric measurements in the same plants and climatic conditions are consistent within the errors; however, models tend to produce lower transpiration fractions. The relatively low transpiration fraction in current state-of-the-art land-surface models calls for a reassessment of the skill of the underlying model parameterizations. The scarcity of global evaporation data makes calibration and validation of global isotope-independent and isotope-based results difficult. However, isotope-enabled land-surface and global climate modeling studies allow for the evaluation of the parameterization of land-surface models by comparing the computed water isotopologue signals in the atmosphere with the available remote sensing and flux-based data sets. Future studies that allow for this evaluation could provide a better understanding of the hydrological cycle in vegetated regions. |
| doi_str_mv | 10.5194/hess-18-2815-2014 |
| format | article |
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J ; van den Hurk, B ; Dirmeyer, P. A ; Seneviratne, S. I ; Röckmann, T ; Trenberth, K. E ; Blyth, E. M ; Wenninger, J ; Hoffmann, G</creator><creatorcontrib>Sutanto, S. J ; van den Hurk, B ; Dirmeyer, P. A ; Seneviratne, S. I ; Röckmann, T ; Trenberth, K. E ; Blyth, E. M ; Wenninger, J ; Hoffmann, G</creatorcontrib><description>Current techniques to disentangle the evaporative fluxes from the continental surface into a contribution evaporated from soils and canopy, or transpired by plants, are under debate. Many isotope-based studies show that transpiration contributes generally more than 70% to the total evaporation, while other isotope-independent techniques lead to considerably smaller transpiration fractions. This paper provides a perspective on isotope-based versus non-isotope-based partitioning studies. Some partitioning results from isotope-based methods, hydrometric measurements, and modeling are presented for comparison. Moreover, the methodological aspects of the partitioning analysis are considered, including their limitations, and explanations of possible discrepancies between the methods are discussed. We suggest sources of systematic error that may lead to biases in the results, e.g., instruments inaccuracy, assumptions used in analyses, and calibration parameters. A number of comparison studies using isotope-based methods and hydrometric measurements in the same plants and climatic conditions are consistent within the errors; however, models tend to produce lower transpiration fractions. The relatively low transpiration fraction in current state-of-the-art land-surface models calls for a reassessment of the skill of the underlying model parameterizations. The scarcity of global evaporation data makes calibration and validation of global isotope-independent and isotope-based results difficult. However, isotope-enabled land-surface and global climate modeling studies allow for the evaluation of the parameterization of land-surface models by comparing the computed water isotopologue signals in the atmosphere with the available remote sensing and flux-based data sets. Future studies that allow for this evaluation could provide a better understanding of the hydrological cycle in vegetated regions.</description><identifier>ISSN: 1607-7938</identifier><identifier>ISSN: 1027-5606</identifier><identifier>EISSN: 1607-7938</identifier><identifier>DOI: 10.5194/hess-18-2815-2014</identifier><language>eng</language><publisher>Katlenburg-Lindau: Copernicus GmbH</publisher><subject>Atmospheric models ; Calibration ; Canopies ; Climate models ; Climatic conditions ; Continental interfaces, environment ; Data processing ; Evaluation ; Evaporation ; Evaporation data ; Fluxes ; Global climate ; Hydrologic cycle ; Hydrologic models ; Hydrological cycle ; Hydrology ; Instruments ; Isotopes ; Measurement methods ; Modelling ; Ocean, Atmosphere ; Parameterization ; Partitioning ; Plant cover ; Plants (botany) ; Remote sensing ; Sciences of the Universe ; Soil ; Transpiration</subject><ispartof>Hydrology and earth system sciences, 2014-08, Vol.18 (8), p.2815-2827</ispartof><rights>COPYRIGHT 2014 Copernicus GmbH</rights><rights>Copyright Copernicus GmbH 2014</rights><rights>Distributed under a Creative Commons Attribution 4.0 International License</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c568t-296533f75a79ab66f934d21bf62f8b067226a4dc48031f88161388778d07a3233</citedby><cites>FETCH-LOGICAL-c568t-296533f75a79ab66f934d21bf62f8b067226a4dc48031f88161388778d07a3233</cites><orcidid>0000-0002-5052-238X ; 0000-0002-6688-8968 ; 0000-0001-9528-2917 ; 0000-0003-3726-7086 ; 0000-0002-9242-3232</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://www.proquest.com/docview/1958409786/fulltextPDF?pq-origsite=primo$$EPDF$$P50$$Gproquest$$Hfree_for_read</linktopdf><linktohtml>$$Uhttps://www.proquest.com/docview/1958409786?pq-origsite=primo$$EHTML$$P50$$Gproquest$$Hfree_for_read</linktohtml><link.rule.ids>230,314,780,784,864,885,2102,25753,27924,27925,37012,44590,75126</link.rule.ids><backlink>$$Uhttps://hal.science/hal-03213009$$DView record in HAL$$Hfree_for_read</backlink></links><search><creatorcontrib>Sutanto, S. J</creatorcontrib><creatorcontrib>van den Hurk, B</creatorcontrib><creatorcontrib>Dirmeyer, P. A</creatorcontrib><creatorcontrib>Seneviratne, S. I</creatorcontrib><creatorcontrib>Röckmann, T</creatorcontrib><creatorcontrib>Trenberth, K. E</creatorcontrib><creatorcontrib>Blyth, E. M</creatorcontrib><creatorcontrib>Wenninger, J</creatorcontrib><creatorcontrib>Hoffmann, G</creatorcontrib><title>HESS Opinions "A perspective on isotope versus non-isotope approaches to determine the contribution of transpiration to total evaporation"</title><title>Hydrology and earth system sciences</title><description>Current techniques to disentangle the evaporative fluxes from the continental surface into a contribution evaporated from soils and canopy, or transpired by plants, are under debate. Many isotope-based studies show that transpiration contributes generally more than 70% to the total evaporation, while other isotope-independent techniques lead to considerably smaller transpiration fractions. This paper provides a perspective on isotope-based versus non-isotope-based partitioning studies. Some partitioning results from isotope-based methods, hydrometric measurements, and modeling are presented for comparison. Moreover, the methodological aspects of the partitioning analysis are considered, including their limitations, and explanations of possible discrepancies between the methods are discussed. We suggest sources of systematic error that may lead to biases in the results, e.g., instruments inaccuracy, assumptions used in analyses, and calibration parameters. A number of comparison studies using isotope-based methods and hydrometric measurements in the same plants and climatic conditions are consistent within the errors; however, models tend to produce lower transpiration fractions. The relatively low transpiration fraction in current state-of-the-art land-surface models calls for a reassessment of the skill of the underlying model parameterizations. The scarcity of global evaporation data makes calibration and validation of global isotope-independent and isotope-based results difficult. However, isotope-enabled land-surface and global climate modeling studies allow for the evaluation of the parameterization of land-surface models by comparing the computed water isotopologue signals in the atmosphere with the available remote sensing and flux-based data sets. Future studies that allow for this evaluation could provide a better understanding of the hydrological cycle in vegetated regions.</description><subject>Atmospheric models</subject><subject>Calibration</subject><subject>Canopies</subject><subject>Climate models</subject><subject>Climatic conditions</subject><subject>Continental interfaces, environment</subject><subject>Data processing</subject><subject>Evaluation</subject><subject>Evaporation</subject><subject>Evaporation data</subject><subject>Fluxes</subject><subject>Global climate</subject><subject>Hydrologic cycle</subject><subject>Hydrologic models</subject><subject>Hydrological cycle</subject><subject>Hydrology</subject><subject>Instruments</subject><subject>Isotopes</subject><subject>Measurement methods</subject><subject>Modelling</subject><subject>Ocean, Atmosphere</subject><subject>Parameterization</subject><subject>Partitioning</subject><subject>Plant cover</subject><subject>Plants (botany)</subject><subject>Remote sensing</subject><subject>Sciences of the Universe</subject><subject>Soil</subject><subject>Transpiration</subject><issn>1607-7938</issn><issn>1027-5606</issn><issn>1607-7938</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><sourceid>PIMPY</sourceid><sourceid>DOA</sourceid><recordid>eNp9ks1uEzEUhUcIJErhAdhZZdXFFP_bs4yq0kSKVInA2vJ47MRRMh5sT1RegafG06FAJIS8sHX0-dj33lNV7xG8YaihH3c2pRrJGkvEagwRfVFdIA5FLRoiX_51fl29SWkPIZaS44vqx_JuswEPg-996BO4WoDBxjRYk_3JgtADn0IOgwWnIo8J9KGvnyU9DDFoU54GOYDOZhuPvrcg7ywwoc_Rt2MutiA4kKPu0-CjfhIKnkPWB2BPegizePW2euX0Idl3v_bL6uunuy-3y3r9cL-6Xaxrw7jMNW44I8QJpkWjW85dQ2iHUes4drKFXGDMNe0MlZAgJyXiiEgphOyg0AQTclmtZt8u6L0aoj_q-F0F7dWTEOJW6Zi9OVjFefGwLTWEC2raVlJjHdcd0w0TmIvidT177fThzGq5WKtJgwQjAmFzQoX9MLOla99Gm7LahzH2pVSFGiYpbITk_6UYh4izMu8_1FaXb_rehdJgc_TJqAWViHLOGlaom39QZXX26MuErPNFP7twfXZhmqJ9zFs9pqRWm8_nLJpZE0NK0brf9SOopkyqKZMKSTVlUk2ZJD8B0sXSIA</recordid><startdate>20140804</startdate><enddate>20140804</enddate><creator>Sutanto, S. 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J</au><au>van den Hurk, B</au><au>Dirmeyer, P. A</au><au>Seneviratne, S. I</au><au>Röckmann, T</au><au>Trenberth, K. E</au><au>Blyth, E. M</au><au>Wenninger, J</au><au>Hoffmann, G</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>HESS Opinions "A perspective on isotope versus non-isotope approaches to determine the contribution of transpiration to total evaporation"</atitle><jtitle>Hydrology and earth system sciences</jtitle><date>2014-08-04</date><risdate>2014</risdate><volume>18</volume><issue>8</issue><spage>2815</spage><epage>2827</epage><pages>2815-2827</pages><issn>1607-7938</issn><issn>1027-5606</issn><eissn>1607-7938</eissn><abstract>Current techniques to disentangle the evaporative fluxes from the continental surface into a contribution evaporated from soils and canopy, or transpired by plants, are under debate. 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A number of comparison studies using isotope-based methods and hydrometric measurements in the same plants and climatic conditions are consistent within the errors; however, models tend to produce lower transpiration fractions. The relatively low transpiration fraction in current state-of-the-art land-surface models calls for a reassessment of the skill of the underlying model parameterizations. The scarcity of global evaporation data makes calibration and validation of global isotope-independent and isotope-based results difficult. However, isotope-enabled land-surface and global climate modeling studies allow for the evaluation of the parameterization of land-surface models by comparing the computed water isotopologue signals in the atmosphere with the available remote sensing and flux-based data sets. 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| ispartof | Hydrology and earth system sciences, 2014-08, Vol.18 (8), p.2815-2827 |
| issn | 1607-7938 1027-5606 1607-7938 |
| language | eng |
| recordid | cdi_doaj_primary_oai_doaj_org_article_66031eb4c3674cbb84cef6ad5a957267 |
| source | Publicly Available Content Database; Directory of Open Access Journals |
| subjects | Atmospheric models Calibration Canopies Climate models Climatic conditions Continental interfaces, environment Data processing Evaluation Evaporation Evaporation data Fluxes Global climate Hydrologic cycle Hydrologic models Hydrological cycle Hydrology Instruments Isotopes Measurement methods Modelling Ocean, Atmosphere Parameterization Partitioning Plant cover Plants (botany) Remote sensing Sciences of the Universe Soil Transpiration |
| title | HESS Opinions "A perspective on isotope versus non-isotope approaches to determine the contribution of transpiration to total evaporation" |
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