Instruments for comprehensive land use planning and river basin management
Research output: Contributions to collected editions/works › Article in conference proceedings › Research
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Sustainable Land Use and Water Management: ERSEC - International conference Proceeding. UNESCO-Publishing, United Nations Educational Scientific and Cultural Organization, 2009. p. 240-256 (Ecological Research for Sustaining the Environment in China (ERSEC); No. CN/SC/2008/RP/H/2).
Research output: Contributions to collected editions/works › Article in conference proceedings › Research
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TY - CHAP
T1 - Instruments for comprehensive land use planning and river basin management
AU - Evers, Mariele
N1 - Literaturverz. S. 254 - 256
PY - 2009
Y1 - 2009
N2 - Integrated river basin management (IRBM) includes the water quality aspects but also flood plain and flood risk management as important elements of IRBM. On the other side land use and land use planning, respectively have a great importance on a sustainable river basin management. However, water management and land use planning are in generally separated in planning procedures and decision making processes. Even water quality and flood risk issues are often handled by different authorities. To identify interrelated issues, synergies and common goals information systems and simulation tools can be helpful. This type of software should provide functionalities to bring together different data and information with different geographic scopes, qualities, dimensions, et cetera. Moreover the interfacing of different models plays a central role. But not only simulation of natural systems is important. Stakeholder involvement and public participation are also essential. For decision making processes, technologies like Planning or Decision Support Systems (PSS/DSS) are important and can be very helpful. But for large-scale and complex catchment based systems, a series of frontiers as for example a good data base, administrative boundaries, data availability/access, standards of methodologies, communication (e.g., between water and environmental managers) exist. Development of DSS is usually time and money-consuming. So it is crucial to identify strategies and synergies to minimize costs and optimize benefits. Requirements for management tools such as interface standards, geo data infrastructure, flexible data management, cause-and-effect scenarios, and functionalities for communication have to be defined. Furthermore a planning instrument called "catchment development plan" with respect to geodata and DSS functionalities which integrates water management and land use planning aspects is presented in this paper.
AB - Integrated river basin management (IRBM) includes the water quality aspects but also flood plain and flood risk management as important elements of IRBM. On the other side land use and land use planning, respectively have a great importance on a sustainable river basin management. However, water management and land use planning are in generally separated in planning procedures and decision making processes. Even water quality and flood risk issues are often handled by different authorities. To identify interrelated issues, synergies and common goals information systems and simulation tools can be helpful. This type of software should provide functionalities to bring together different data and information with different geographic scopes, qualities, dimensions, et cetera. Moreover the interfacing of different models plays a central role. But not only simulation of natural systems is important. Stakeholder involvement and public participation are also essential. For decision making processes, technologies like Planning or Decision Support Systems (PSS/DSS) are important and can be very helpful. But for large-scale and complex catchment based systems, a series of frontiers as for example a good data base, administrative boundaries, data availability/access, standards of methodologies, communication (e.g., between water and environmental managers) exist. Development of DSS is usually time and money-consuming. So it is crucial to identify strategies and synergies to minimize costs and optimize benefits. Requirements for management tools such as interface standards, geo data infrastructure, flexible data management, cause-and-effect scenarios, and functionalities for communication have to be defined. Furthermore a planning instrument called "catchment development plan" with respect to geodata and DSS functionalities which integrates water management and land use planning aspects is presented in this paper.
KW - Environmental planning
M3 - Article in conference proceedings
T3 - Ecological Research for Sustaining the Environment in China (ERSEC)
SP - 240
EP - 256
BT - Sustainable Land Use and Water Management
PB - UNESCO-Publishing, United Nations Educational Scientific and Cultural Organization
T2 - Ecological Research for Sustaining the Environment in China International Conference - 2008
Y2 - 8 October 2008 through 10 October 2008
ER -