Using scenario modelling for adapting to urbanization and water scarcity: towards a sustainable city in semi-arid areas
Sustainable development on a global scale has been hindered by urbanization and water scarcity, but the greatest threat is from decision-makers ignoring these challenges, particularly in developing countries. In addition, urbanization is spreading at an alarming rate across the globe, affecting...
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Main Authors: | , , , |
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Format: | Article |
Published: |
Internacionalni univerzitet u Sarajevu
2022
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Online Access: | http://psasir.upm.edu.my/id/eprint/102564/ http://pen.ius.edu.ba/index.php/pen/article/view/2552/1076 |
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Institution: | Universiti Putra Malaysia |
Summary: | Sustainable development on a global scale has been hindered by urbanization and water scarcity, but the
greatest threat is from decision-makers ignoring these challenges, particularly in developing countries. In
addition, urbanization is spreading at an alarming rate across the globe, affecting the environment and society
in profound ways. This study reviews previous studies that examined future scenarios of urban areas under
the challenges of rapid population growth, urban sprawl and water scarcity in order to improve supported
decision-making (SDM). Scholars expected that the rapid development of the urbanization scenario would
cause resource sustainability to continually be threatened as a result of excessive use of natural resources. In
contrast, a sustainable development scenario is an ambitious plan that relies on optimal land use, which views
land as a limited and non-renewable resource. In consequence, estimating these threats together could be
crucial for planning sustainable strategies for the long term. In light of this review, the SDM tool could be
improved by combining the cellular automata model, water evolution and planning model coupled with
geographic information systems, remote sensing and Analytic Hierarchy Process (AHP) method. Urban
planners could use the proposed tool to optimize, simulate and visualize the dynamic processes of land-use
change and urban water to overcome critical conditions. |
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