Bridging river basin scales and processes to assess human‐climate impacts and the terrestrial hydrologic system
Identifieur interne : 000367 ( Istex/Corpus ); précédent : 000366; suivant : 000368Bridging river basin scales and processes to assess human‐climate impacts and the terrestrial hydrologic system
Auteurs : Patrick M. Reed ; Robert P. Brooks ; Kenneth J. Davis ; David R. Dewalle ; Kevin A. Dressler ; Chistopher J. Duffy ; Hangsheng Lin ; Douglas A. Miller ; Raymond G. Najjar ; Karen M. Salvage ; Thorsten Wagener ; Brent YarnalSource :
- Water Resources Research [ 0043-1397 ] ; 2006-07.
Abstract
The increasing expression of human activity, climate variability, and climate change on humid, terrestrial hydrologic systems has made the integrated nature of large river basins more apparent. However, to date, there is no instrument platform sufficient to characterize river basins' hydrologic couplings and feedbacks, with many processes and impacts left almost entirely unobserved (e.g., snowmelt floods). Characterization at the river basin scale will require a more holistic vision and a far greater commitment from the environmental science community. It will require new designs and implementation of integrated instrumentation, a new generation of models, and a management framework that clearly addresses the human‐climate‐terrestrial interactions impacting our watersheds and river basins. Initially, we propose that existing “similarity classifications” (e.g., regional soil, geologic, ecologic, hydrographic digital products) can provide a starting point for organizing historical data and initiating a long‐term adaptive, multiscale observing strategy. This vision paper outlines instrumentation platforms for point, plot, reach, and hillslope scales that could be located within the “characteristic” landscapes of river basins. The network of observing platforms then forms the basis of a “Hydro‐Mesonet” that can potentially support multiscale, multiprocess scientific studies necessary to understand and improve forecasts of our water resources at the river basin scale. This paper concludes with a discussion of how a network of such sites can support research at the level of the individual researcher and scale to the level of community‐wide initiatives.
Url:
DOI: 10.1029/2005WR004153
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Reed</name><affiliation><mods:affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</mods:affiliation></affiliation><affiliation><mods:affiliation>E-mail: preed@engr.psu.edu</mods:affiliation></affiliation></author><author><name sortKey="Brooks, Robert P" sort="Brooks, Robert P" uniqKey="Brooks R" first="Robert P." last="Brooks">Robert P. Brooks</name><affiliation><mods:affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</mods:affiliation></affiliation></author><author><name sortKey="Davis, Kenneth J" sort="Davis, Kenneth J" uniqKey="Davis K" first="Kenneth J." last="Davis">Kenneth J. 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However, to date, there is no instrument platform sufficient to characterize river basins' hydrologic couplings and feedbacks, with many processes and impacts left almost entirely unobserved (e.g., snowmelt floods). Characterization at the river basin scale will require a more holistic vision and a far greater commitment from the environmental science community. It will require new designs and implementation of integrated instrumentation, a new generation of models, and a management framework that clearly addresses the human‐climate‐terrestrial interactions impacting our watersheds and river basins. Initially, we propose that existing “similarity classifications” (e.g., regional soil, geologic, ecologic, hydrographic digital products) can provide a starting point for organizing historical data and initiating a long‐term adaptive, multiscale observing strategy. This vision paper outlines instrumentation platforms for point, plot, reach, and hillslope scales that could be located within the “characteristic” landscapes of river basins. The network of observing platforms then forms the basis of a “Hydro‐Mesonet” that can potentially support multiscale, multiprocess scientific studies necessary to understand and improve forecasts of our water resources at the river basin scale. This paper concludes with a discussion of how a network of such sites can support research at the level of the individual researcher and scale to the level of community‐wide initiatives.</div></front></TEI><istex><corpusName>wiley</corpusName><author><json:item><name>Patrick M. Reed</name><affiliations><json:string>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</json:string><json:string>E-mail: preed@engr.psu.edu</json:string></affiliations></json:item><json:item><name>Robert P. 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However, to date, there is no instrument platform sufficient to characterize river basins' hydrologic couplings and feedbacks, with many processes and impacts left almost entirely unobserved (e.g., snowmelt floods). Characterization at the river basin scale will require a more holistic vision and a far greater commitment from the environmental science community. It will require new designs and implementation of integrated instrumentation, a new generation of models, and a management framework that clearly addresses the human‐climate‐terrestrial interactions impacting our watersheds and river basins. Initially, we propose that existing “similarity classifications” (e.g., regional soil, geologic, ecologic, hydrographic digital products) can provide a starting point for organizing historical data and initiating a long‐term adaptive, multiscale observing strategy. This vision paper outlines instrumentation platforms for point, plot, reach, and hillslope scales that could be located within the “characteristic” landscapes of river basins. The network of observing platforms then forms the basis of a “Hydro‐Mesonet” that can potentially support multiscale, multiprocess scientific studies necessary to understand and improve forecasts of our water resources at the river basin scale. 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Res.</title><idno type="pISSN">0043-1397</idno><idno type="eISSN">1944-7973</idno><idno type="DOI">10.1002/(ISSN)1944-7973</idno><imprint><publisher>Blackwell Publishing Ltd</publisher><date type="published" when="2006-07"></date><biblScope unit="volume">42</biblScope><biblScope unit="issue">7</biblScope><biblScope unit="page" from="/">n/a</biblScope><biblScope unit="page" to="/">n/a</biblScope></imprint></monogr><idno type="istex">02C71C85F86EA0348581530483259536D2A1BFE2</idno><idno type="DOI">10.1029/2005WR004153</idno><idno type="ArticleID">2005WR004153</idno></biblStruct></sourceDesc></fileDesc><profileDesc><creation><date>2006</date></creation><langUsage><language ident="en">en</language></langUsage><abstract><p>The increasing expression of human activity, climate variability, and climate change on humid, terrestrial hydrologic systems has made the integrated nature of large river basins more apparent. However, to date, there is no instrument platform sufficient to characterize river basins' hydrologic couplings and feedbacks, with many processes and impacts left almost entirely unobserved (e.g., snowmelt floods). Characterization at the river basin scale will require a more holistic vision and a far greater commitment from the environmental science community. It will require new designs and implementation of integrated instrumentation, a new generation of models, and a management framework that clearly addresses the human‐climate‐terrestrial interactions impacting our watersheds and river basins. Initially, we propose that existing “similarity classifications” (e.g., regional soil, geologic, ecologic, hydrographic digital products) can provide a starting point for organizing historical data and initiating a long‐term adaptive, multiscale observing strategy. This vision paper outlines instrumentation platforms for point, plot, reach, and hillslope scales that could be located within the “characteristic” landscapes of river basins. The network of observing platforms then forms the basis of a “Hydro‐Mesonet” that can potentially support multiscale, multiprocess scientific studies necessary to understand and improve forecasts of our water resources at the river basin scale. This paper concludes with a discussion of how a network of such sites can support research at the level of the individual researcher and scale to the level of community‐wide initiatives.</p></abstract><textClass><keywords scheme="keyword"><list><head>keywords</head><item><term>hydrologic observatories</term></item><item><term>integrated assessment</term></item><item><term>modeling</term></item><item><term>climate change</term></item><item><term>land use</term></item><item><term>CUAHSI</term></item></list></keywords></textClass><textClass><keywords scheme="Journal Subject"><list><head>index-terms</head><item><term>GEODESY AND GRAVITY</term></item><item><term>Mass balance</term></item><item><term>GLOBAL CHANGE</term></item><item><term>Climate variability</term></item><item><term>Water cycles</term></item><item><term>Oceans</term></item><item><term>HYDROLOGY</term></item><item><term>Anthropogenic effects</term></item><item><term>Hydrological cycles and budgets</term></item><item><term>Hydrologic scaling</term></item><item><term>Instruments and techniques: monitoring</term></item><item><term>ATMOSPHERIC PROCESSES</term></item><item><term>Climate change and variability</term></item><item><term>Climatology</term></item><item><term>OCEANOGRAPHY: GENERAL</term></item><item><term>Climate and interannual variability</term></item><item><term>OCEANOGRAPHY: PHYSICAL</term></item><item><term>Decadal ocean variability</term></item><item><term>OCEANOGRAPHY: BIOLOGICAL AND CHEMICAL</term></item><item><term>Anoxic environments</term></item><item><term>PALEOCEANOGRAPHY</term></item><item><term>Anthropogenic effects</term></item></list></keywords></textClass><textClass><keywords scheme="Journal Subject"><list><head>article-category</head><item><term>Regular Article</term></item></list></keywords></textClass></profileDesc><revisionDesc><change when="2005-03-30">Received</change><change when="2006-03-31">Registration</change><change when="2006-07">Published</change></revisionDesc></teiHeader></istex:fulltextTEI><json:item><original>false</original><mimetype>text/plain</mimetype><extension>txt</extension><uri>https://api.istex.fr/document/02C71C85F86EA0348581530483259536D2A1BFE2/fulltext/txt</uri></json:item></fulltext><metadata><istex:metadataXml wicri:clean="Wiley, elements deleted: body"><istex:xmlDeclaration>version="1.0" encoding="UTF-8" standalone="yes"</istex:xmlDeclaration><istex:document><component type="serialArticle" version="2.0" xml:lang="en" xml:id="wrcr10419"><header><publicationMeta level="product"><doi>10.1002/(ISSN)1944-7973</doi><issn type="print">0043-1397</issn><issn type="electronic">1944-7973</issn><idGroup><id type="product" value="WRCR"></id><id type="coden" value="WRERAQ"></id></idGroup><titleGroup><title type="main" xml:lang="en" sort="WATER RESOURCES RESEARCH">Water Resources Research</title><title type="short">Water Resour. Res.</title></titleGroup></publicationMeta><publicationMeta level="part" position="70"><doi>10.1002/wrcr.v42.7</doi><numberingGroup><numbering type="journalVolume" number="42">42</numbering><numbering type="journalIssue">7</numbering></numberingGroup><coverDate startDate="2006-07">July 2006</coverDate></publicationMeta><publicationMeta level="unit" position="160" type="article" status="forIssue"><doi>10.1029/2005WR004153</doi><idGroup><id type="editorialOffice" value="2005WR004153"></id><id type="society" value="W07418"></id><id type="unit" value="WRCR10419"></id></idGroup><countGroup><count type="pageTotal" number="11"></count></countGroup><titleGroup><title type="articleCategory">Regular Article</title><title type="tocHeading1">Regular Article</title></titleGroup><copyright ownership="thirdParty">Copyright 2006 by the American Geophysical Union.</copyright><eventGroup><event type="manuscriptReceived" date="2005-03-30"></event><event type="manuscriptRevised" date="2006-03-20"></event><event type="manuscriptAccepted" date="2006-03-31"></event><event type="firstOnline" date="2006-07-22"></event><event type="publishedOnlineFinalForm" date="2006-07-22"></event><event type="xmlConverted" agent="SPi Global Converter:AGUv3.44_TO_WileyML3Gv1.0.3 version:1.2; WileyML 3G Packaging Tool v1.0" date="2013-01-03"></event><event type="xmlConverted" agent="Converter:WILEY_ML3G_TO_WILEY_ML3GV2 version:4.0.1" date="2014-03-21"></event><event type="xmlConverted" agent="Converter:WML3G_To_WML3G version:4.1.7 mode:FullText,remove_FC" date="2014-11-04"></event></eventGroup><numberingGroup><numbering type="pageFirst">n/a</numbering><numbering type="pageLast">n/a</numbering></numberingGroup><subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/1200">GEODESY AND GRAVITY</subject><subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/1218">Mass balance</subject></subjectInfo><subject href="http://psi.agu.org/taxonomy5/1600">GLOBAL CHANGE</subject><subjectInfo><subject href="http://psi.agu.org/taxonomy5/1616">Climate variability</subject><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/1655">Water cycles</subject><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/1635">Oceans</subject></subjectInfo><subject href="http://psi.agu.org/taxonomy5/1800">HYDROLOGY</subject><subjectInfo><subject href="http://psi.agu.org/taxonomy5/1803">Anthropogenic effects</subject><subject href="http://psi.agu.org/taxonomy5/1836">Hydrological cycles and budgets</subject><subject href="http://psi.agu.org/taxonomy5/1839">Hydrologic scaling</subject><subject href="http://psi.agu.org/taxonomy5/1895">Instruments and techniques: monitoring</subject></subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/3300">ATMOSPHERIC PROCESSES</subject><subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/3305">Climate change and variability</subject><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/3309">Climatology</subject></subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/4200">OCEANOGRAPHY: GENERAL</subject><subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/4215">Climate and interannual variability</subject></subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/4500">OCEANOGRAPHY: PHYSICAL</subject><subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/4513">Decadal ocean variability</subject></subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/4800">OCEANOGRAPHY: BIOLOGICAL AND CHEMICAL</subject><subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/4802">Anoxic environments</subject></subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/4900">PALEOCEANOGRAPHY</subject><subjectInfo><subject role="crossTerm" href="http://psi.agu.org/taxonomy5/4902">Anthropogenic effects</subject></subjectInfo></subjectInfo><selfCitationGroup><citation xml:id="wrcr10419-cit-0000" type="self"><author><familyName>Reed</familyName>, <givenNames>P. M.</givenNames></author>, et al. (<pubYear year="2006">2006</pubYear>), <articleTitle>Bridging river basin scales and processes to assess human‐climate impacts and the terrestrial hydrologic system</articleTitle>, <journalTitle>Water Resour. Res.</journalTitle>, <vol>42</vol>, W07418, doi:<accessionId ref="info:doi/10.1029/2005WR004153">10.1029/2005WR004153</accessionId>.</citation></selfCitationGroup><linkGroup><link type="toTypesetVersion" href="file:WRCR.WRCR10419.pdf"></link></linkGroup></publicationMeta><contentMeta><countGroup><count type="figureTotal" number="5"></count></countGroup><titleGroup><title type="main">Bridging river basin scales and processes to assess human‐climate impacts and the terrestrial hydrologic system</title><title type="short">BRIDGING SCALES AND PROCESSES</title><title type="shortAuthors">Reed <i>et al</i>.</title></titleGroup><creators><creator creatorRole="author" xml:id="wrcr10419-cr-0001" affiliationRef="#wrcr10419-aff-0001"><personName><givenNames>Patrick M.</givenNames> <familyName>Reed</familyName></personName><contactDetails><email normalForm="preed@engr.psu.edu">preed@engr.psu.edu</email></contactDetails></creator><creator creatorRole="author" xml:id="wrcr10419-cr-0002" affiliationRef="#wrcr10419-aff-0001"><personName><givenNames>Robert P.</givenNames> <familyName>Brooks</familyName></personName></creator><creator creatorRole="author" xml:id="wrcr10419-cr-0003" affiliationRef="#wrcr10419-aff-0001"><personName><givenNames>Kenneth J.</givenNames> <familyName>Davis</familyName></personName></creator><creator creatorRole="author" xml:id="wrcr10419-cr-0004" affiliationRef="#wrcr10419-aff-0001"><personName><givenNames>David R.</givenNames> <familyName>DeWalle</familyName></personName></creator><creator creatorRole="author" xml:id="wrcr10419-cr-0005" affiliationRef="#wrcr10419-aff-0001"><personName><givenNames>Kevin A.</givenNames> <familyName>Dressler</familyName></personName></creator><creator creatorRole="author" xml:id="wrcr10419-cr-0006" affiliationRef="#wrcr10419-aff-0001"><personName><givenNames>Chistopher J.</givenNames> <familyName>Duffy</familyName></personName></creator><creator creatorRole="author" xml:id="wrcr10419-cr-0007" affiliationRef="#wrcr10419-aff-0001"><personName><givenNames>Hangsheng</givenNames> <familyName>Lin</familyName></personName></creator><creator creatorRole="author" xml:id="wrcr10419-cr-0008" affiliationRef="#wrcr10419-aff-0001"><personName><givenNames>Douglas A.</givenNames> <familyName>Miller</familyName></personName></creator><creator creatorRole="author" xml:id="wrcr10419-cr-0009" affiliationRef="#wrcr10419-aff-0001"><personName><givenNames>Raymond G.</givenNames> <familyName>Najjar</familyName></personName></creator><creator creatorRole="author" xml:id="wrcr10419-cr-0010" affiliationRef="#wrcr10419-aff-0002"><personName><givenNames>Karen M.</givenNames> <familyName>Salvage</familyName></personName></creator><creator creatorRole="author" xml:id="wrcr10419-cr-0011" affiliationRef="#wrcr10419-aff-0001"><personName><givenNames>Thorsten</givenNames> <familyName>Wagener</familyName></personName></creator><creator creatorRole="author" xml:id="wrcr10419-cr-0012" affiliationRef="#wrcr10419-aff-0001"><personName><givenNames>Brent</givenNames> <familyName>Yarnal</familyName></personName></creator></creators><affiliationGroup><affiliation countryCode="US" type="organization" xml:id="wrcr10419-aff-0001"><orgDiv>Department of Civil and Environmental Engineering</orgDiv><orgName>Pennsylvania State University</orgName><address><city>University Park</city><countryPart>Pennsylvania</countryPart><country>USA</country></address></affiliation><affiliation countryCode="US" type="organization" xml:id="wrcr10419-aff-0002"><orgDiv>Department of Geological Science</orgDiv><orgName>State University of New York at Binghamton</orgName><address><city>Binghamton</city><countryPart>New York</countryPart><country>USA</country></address></affiliation></affiliationGroup><keywordGroup type="author"><keyword xml:id="wrcr10419-kwd-0001">hydrologic observatories</keyword><keyword xml:id="wrcr10419-kwd-0002">integrated assessment</keyword><keyword xml:id="wrcr10419-kwd-0003">modeling</keyword><keyword xml:id="wrcr10419-kwd-0004">climate change</keyword><keyword xml:id="wrcr10419-kwd-0005">land use</keyword><keyword xml:id="wrcr10419-kwd-0006">CUAHSI</keyword></keywordGroup><abstractGroup><abstract type="main"><p xml:id="wrcr10419-para-0001" label="1">The increasing expression of human activity, climate variability, and climate change on humid, terrestrial hydrologic systems has made the integrated nature of large river basins more apparent. However, to date, there is no instrument platform sufficient to characterize river basins' hydrologic couplings and feedbacks, with many processes and impacts left almost entirely unobserved (e.g., snowmelt floods). Characterization at the river basin scale will require a more holistic vision and a far greater commitment from the environmental science community. It will require new designs and implementation of integrated instrumentation, a new generation of models, and a management framework that clearly addresses the human‐climate‐terrestrial interactions impacting our watersheds and river basins. Initially, we propose that existing “similarity classifications” (e.g., regional soil, geologic, ecologic, hydrographic digital products) can provide a starting point for organizing historical data and initiating a long‐term adaptive, multiscale observing strategy. This vision paper outlines instrumentation platforms for point, plot, reach, and hillslope scales that could be located within the “characteristic” landscapes of river basins. The network of observing platforms then forms the basis of a “Hydro‐Mesonet” that can potentially support multiscale, multiprocess scientific studies necessary to understand and improve forecasts of our water resources at the river basin scale. This paper concludes with a discussion of how a network of such sites can support research at the level of the individual researcher and scale to the level of community‐wide initiatives.</p></abstract></abstractGroup></contentMeta></header></component></istex:document></istex:metadataXml><mods version="3.6"><titleInfo lang="en"><title>Bridging river basin scales and processes to assess human‐climate impacts and the terrestrial hydrologic system</title></titleInfo><titleInfo type="abbreviated" lang="en"><title>BRIDGING SCALES AND PROCESSES</title></titleInfo><titleInfo type="alternative" contentType="CDATA" lang="en"><title>Bridging river basin scales and processes to assess human‐climate impacts and the terrestrial hydrologic system</title></titleInfo><name type="personal"><namePart type="given">Patrick M.</namePart><namePart type="family">Reed</namePart><affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</affiliation><affiliation>E-mail: preed@engr.psu.edu</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Robert P.</namePart><namePart type="family">Brooks</namePart><affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Kenneth J.</namePart><namePart type="family">Davis</namePart><affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">David R.</namePart><namePart type="family">DeWalle</namePart><affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Kevin A.</namePart><namePart type="family">Dressler</namePart><affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Chistopher J.</namePart><namePart type="family">Duffy</namePart><affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Hangsheng</namePart><namePart type="family">Lin</namePart><affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Douglas A.</namePart><namePart type="family">Miller</namePart><affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Raymond G.</namePart><namePart type="family">Najjar</namePart><affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Karen M.</namePart><namePart type="family">Salvage</namePart><affiliation>Department of Geological Science, State University of New York at Binghamton, New York, Binghamton, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Thorsten</namePart><namePart type="family">Wagener</namePart><affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Brent</namePart><namePart type="family">Yarnal</namePart><affiliation>Department of Civil and Environmental Engineering, Pennsylvania State University, Pennsylvania, University Park, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><typeOfResource>text</typeOfResource><genre type="article" displayLabel="article"></genre><originInfo><publisher>Blackwell Publishing Ltd</publisher><dateIssued encoding="w3cdtf">2006-07</dateIssued><dateCaptured encoding="w3cdtf">2005-03-30</dateCaptured><dateValid encoding="w3cdtf">2006-03-31</dateValid><edition>Reed, P. M., et al. (2006), Bridging river basin scales and processes to assess human‐climate impacts and the terrestrial hydrologic system, Water Resour. Res., 42, W07418, doi:10.1029/2005WR004153.</edition><copyrightDate encoding="w3cdtf">2006</copyrightDate></originInfo><language><languageTerm type="code" authority="rfc3066">en</languageTerm><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><physicalDescription><internetMediaType>text/html</internetMediaType><extent unit="figures">5</extent></physicalDescription><abstract>The increasing expression of human activity, climate variability, and climate change on humid, terrestrial hydrologic systems has made the integrated nature of large river basins more apparent. However, to date, there is no instrument platform sufficient to characterize river basins' hydrologic couplings and feedbacks, with many processes and impacts left almost entirely unobserved (e.g., snowmelt floods). Characterization at the river basin scale will require a more holistic vision and a far greater commitment from the environmental science community. It will require new designs and implementation of integrated instrumentation, a new generation of models, and a management framework that clearly addresses the human‐climate‐terrestrial interactions impacting our watersheds and river basins. Initially, we propose that existing “similarity classifications” (e.g., regional soil, geologic, ecologic, hydrographic digital products) can provide a starting point for organizing historical data and initiating a long‐term adaptive, multiscale observing strategy. This vision paper outlines instrumentation platforms for point, plot, reach, and hillslope scales that could be located within the “characteristic” landscapes of river basins. The network of observing platforms then forms the basis of a “Hydro‐Mesonet” that can potentially support multiscale, multiprocess scientific studies necessary to understand and improve forecasts of our water resources at the river basin scale. This paper concludes with a discussion of how a network of such sites can support research at the level of the individual researcher and scale to the level of community‐wide initiatives.</abstract><subject><genre>keywords</genre><topic>hydrologic observatories</topic><topic>integrated assessment</topic><topic>modeling</topic><topic>climate change</topic><topic>land use</topic><topic>CUAHSI</topic></subject><relatedItem type="host"><titleInfo><title>Water Resources Research</title></titleInfo><titleInfo type="abbreviated"><title>Water Resour. Res.</title></titleInfo><genre type="journal">journal</genre><subject><genre>index-terms</genre><topic authorityURI="http://psi.agu.org/taxonomy5/1200">GEODESY AND GRAVITY</topic><topic authorityURI="http://psi.agu.org/taxonomy5/1218">Mass balance</topic><topic authorityURI="http://psi.agu.org/taxonomy5/1600">GLOBAL CHANGE</topic><topic authorityURI="http://psi.agu.org/taxonomy5/1616">Climate variability</topic><topic authorityURI="http://psi.agu.org/taxonomy5/1655">Water cycles</topic><topic authorityURI="http://psi.agu.org/taxonomy5/1635">Oceans</topic><topic authorityURI="http://psi.agu.org/taxonomy5/1800">HYDROLOGY</topic><topic authorityURI="http://psi.agu.org/taxonomy5/1803">Anthropogenic effects</topic><topic authorityURI="http://psi.agu.org/taxonomy5/1836">Hydrological cycles and budgets</topic><topic authorityURI="http://psi.agu.org/taxonomy5/1839">Hydrologic scaling</topic><topic authorityURI="http://psi.agu.org/taxonomy5/1895">Instruments and techniques: monitoring</topic><topic authorityURI="http://psi.agu.org/taxonomy5/3300">ATMOSPHERIC PROCESSES</topic><topic authorityURI="http://psi.agu.org/taxonomy5/3305">Climate change and variability</topic><topic authorityURI="http://psi.agu.org/taxonomy5/3309">Climatology</topic><topic authorityURI="http://psi.agu.org/taxonomy5/4200">OCEANOGRAPHY: GENERAL</topic><topic authorityURI="http://psi.agu.org/taxonomy5/4215">Climate and interannual variability</topic><topic authorityURI="http://psi.agu.org/taxonomy5/4500">OCEANOGRAPHY: PHYSICAL</topic><topic authorityURI="http://psi.agu.org/taxonomy5/4513">Decadal ocean variability</topic><topic authorityURI="http://psi.agu.org/taxonomy5/4800">OCEANOGRAPHY: BIOLOGICAL AND CHEMICAL</topic><topic authorityURI="http://psi.agu.org/taxonomy5/4802">Anoxic environments</topic><topic authorityURI="http://psi.agu.org/taxonomy5/4900">PALEOCEANOGRAPHY</topic><topic authorityURI="http://psi.agu.org/taxonomy5/4902">Anthropogenic effects</topic></subject><subject><genre>article-category</genre><topic>Regular Article</topic></subject><identifier type="ISSN">0043-1397</identifier><identifier type="eISSN">1944-7973</identifier><identifier type="DOI">10.1002/(ISSN)1944-7973</identifier><identifier type="CODEN">WRERAQ</identifier><identifier type="PublisherID">WRCR</identifier><part><date>2006</date><detail type="volume"><caption>vol.</caption><number>42</number></detail><detail type="issue"><caption>no.</caption><number>7</number></detail><extent unit="pages"><start>n/a</start><end>n/a</end><total>11</total></extent></part></relatedItem><identifier type="istex">02C71C85F86EA0348581530483259536D2A1BFE2</identifier><identifier type="DOI">10.1029/2005WR004153</identifier><identifier type="ArticleID">2005WR004153</identifier><accessCondition type="use and reproduction" contentType="copyright">Copyright 2006 by the American Geophysical Union.</accessCondition><recordInfo><recordContentSource>WILEY</recordContentSource></recordInfo></mods></metadata><enrichments><json:item><type>multicat</type><uri>https://api.istex.fr/document/02C71C85F86EA0348581530483259536D2A1BFE2/enrichments/multicat</uri></json:item></enrichments><serie></serie></istex></record>Pour manipuler ce document sous Unix (Dilib)
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