Download full text
(external source)
Citation Suggestion
Please use the following Persistent Identifier (PID) to cite this document:
https://doi.org/10.17645/up.v6i3.4208
Exports for your reference manager
Urban Ecosystem Vulnerability Assessment of Support Climate-Resilient City Development
[journal article]
Abstract Climate change poses a threat to cities. Geospatial information and communication technology (Geo-ICT) assisted planning is increasingly being utilised to foster urban sustainability and adaptability to climate change. To fill the theoretical and practical gaps of urban adaptive planning and Geo-ICT... view more
Climate change poses a threat to cities. Geospatial information and communication technology (Geo-ICT) assisted planning is increasingly being utilised to foster urban sustainability and adaptability to climate change. To fill the theoretical and practical gaps of urban adaptive planning and Geo-ICT implementation, this article presents an urban ecosystem vulnerability assessment approach using integrated socio-ecological modelling. The application of the Geo-ICT method is demonstrated in a specific case study of climate-resilient city development in Nanjing (China), aiming at helping city decision-makers understand the general geographic data processing and policy revision processes in response to hypothetical future disruptions and pressures on urban social, economic, and environmental systems. Ideally, the conceptual framework of the climate-resilient city transition proposed in this study effectively integrates the geographic data analysis, policy modification, and participatory planning. In the process of model building, we put forward the index system of urban ecosystem vulnerability assessment and use the assessment result as input data for the socio-ecological model. As a result, the model reveals the interaction processes of local land use, economy, and environment, further generating an evolving state of future land use in the studied city. The findings of this study demonstrate that socio-ecological modelling can provide guidance in adjusting the human-land interaction and climate-resilient city development from the perspective of macro policy. The decision support using urban ecosystem vulnerability assessment and quantitative system modelling can be useful for urban development under a variety of environmental change scenarios.... view less
Keywords
climate change; urban development; sustainable development; ecological system; urban planning; local politics; China
Classification
Area Development Planning, Regional Research
Ecology, Environment
Free Keywords
Geo-ICT; climate-resilient city; ecosystem vulnerability; socio-ecological model
Document language
English
Publication Year
2021
Page/Pages
p. 227-239
Journal
Urban Planning, 6 (2021) 3
Issue topic
Smart Urban Governance for Climate Change Adaptation
ISSN
2183-7635
Status
Published Version; peer reviewed