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dc.contributor.authorMiddelkoop H
dc.contributor.authorAsselman NEM
dc.contributor.authorBuitenveld H
dc.contributor.authorHaasnoot M
dc.contributor.authorKwaad FJPM
dc.contributor.authorKwadijk JCJ
dc.contributor.authorDeursen WOA van
dc.contributor.authorDijk PM van
dc.contributor.authorVermulst JAPH
dc.contributor.authorWesseling C
dc.date.accessioned2012-12-12T17:06:16Z
dc.date.available2012-12-12T17:06:16Z
dc.date.issued2001-02-05
dc.identifier410200049
dc.identifier.isbn90-5851-032-8
dc.identifier.urihttp://hdl.handle.net/10029/258463
dc.description.abstractAbstract niet beschikbaar
dc.description.abstractThis report gives the extended summary of the project 'The impact of climate change on the river Rhine and the implications for water management in the Netherlands', carried out within the framework of the Dutch National Research Programme on Global Air Pollution and Climate Change (NRP) - phase 2. This report is also a product of the IRMA-SPONGE project nr. 3/NL/1/164 / 99 15 183 0. The project contributes to the CHR- research on the Rhine basin. The institutes that collaborated in the project are the Faculty of Geographical Sciences - Utrecht University, Institute of Inland Water management and Wastewater Treatment - RIZA and the Landscape and Environmental Research Group - University of Amsterdam. This study firstly addressed the effects of changes in climate and land use on the river regime, including runoff, sediment production, transport and deposition in the Rhine basin. Secondly, the hydrological, morphological and ecological effects of soil subsidence, changes in the river regime and other climate related boundary conditions were investigated for inland water systems in the Rhine basin part of the Netherlands. This was done on the basis of a separation in three, connected, sub-systems, i.e. River Rhine branches, terrestrial areas and lake IJsselmeer. Finally, by combining the expected impacts with possible measures for adaptation, the vulnerability of these functions to climate change was assessed.
dc.description.sponsorshipSG-NOP
dc.format.extent160 p
dc.language.isoen
dc.relation.ispartofGlobal Change NOP-NRP report 410200049
dc.relation.urlhttp://www.rivm.nl/bibliotheek/rapporten/410200049.html
dc.subject06nl
dc.subjectklimaatveranderingnl
dc.subjecthydrologienl
dc.subjectrivierennl
dc.subjectwaterbeheernl
dc.subjectrijnnl
dc.subjectclimatic changesen
dc.subjecthydrologyen
dc.subjectriversen
dc.subjectwater managementen
dc.subjectrhineen
dc.titleThe impact of climate change on the river Rhine and the implications for water management in the Netherlandsen
dc.title.alternativeDe invloed van klimaatverandering op de Rijn en de implicaties voor waterbeheer in Nederlandnl
dc.typeReport
dc.contributor.departmentNOP
dc.date.updated2012-12-12T17:06:16Z
html.description.abstractAbstract niet beschikbaar
html.description.abstractThis report gives the extended summary of the project 'The impact of climate change on the river Rhine and the implications for water management in the Netherlands', carried out within the framework of the Dutch National Research Programme on Global Air Pollution and Climate Change (NRP) - phase 2. This report is also a product of the IRMA-SPONGE project nr. 3/NL/1/164 / 99 15 183 0. The project contributes to the CHR- research on the Rhine basin. The institutes that collaborated in the project are the Faculty of Geographical Sciences - Utrecht University, Institute of Inland Water management and Wastewater Treatment - RIZA and the Landscape and Environmental Research Group - University of Amsterdam. This study firstly addressed the effects of changes in climate and land use on the river regime, including runoff, sediment production, transport and deposition in the Rhine basin. Secondly, the hydrological, morphological and ecological effects of soil subsidence, changes in the river regime and other climate related boundary conditions were investigated for inland water systems in the Rhine basin part of the Netherlands. This was done on the basis of a separation in three, connected, sub-systems, i.e. River Rhine branches, terrestrial areas and lake IJsselmeer. Finally, by combining the expected impacts with possible measures for adaptation, the vulnerability of these functions to climate change was assessed.


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