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Urban growth dynamics in Perth, Western Australia: using applied remote sensing for sustainable future planning

Urban growth dynamics in Perth, Western Australia: using applied remote sensing for sustainable future planning
Urban growth dynamics in Perth, Western Australia: using applied remote sensing for sustainable future planning
Earth observation data can provide valuable assessments for monitoring the spatial extent of (un)sustainable urban growth of the world’s cities to better inform planning policy in reducing associated economic, social and environmental costs. Western Australia has witnessed rapid economic expansion since the turn of the century founded upon extensive natural resource extraction. Thus, Perth, the state capital of Western Australia, has encountered significant population and urban growth in response to the booming state economy. However, the recent economic slowdown resulted in the largest decrease in natural resource values that Western Australia has ever experienced. Here, we present multi-temporal urban expansion statistics from 1990 to 2015 for Perth, derived from Landsat imagery. Current urban estimates used for future development plans and progress monitoring of infill and density targets are based upon aggregated census data and metrics unrepresentative of actual land cover change, underestimating overall urban area. Earth observation provides a temporally consistent methodology, identifying areal urban area at higher spatial and temporal resolution than current estimates. Our results indicate that the spatial extent of the Perth Metropolitan Region has increased 45% between 1990 and 2015, over 320 km2. We highlight the applicability of earth observation data in accurately quantifying urban area for sustainable targeted planning practices.
1-14
MacLachlan, Andrew
7256882c-d3c7-4bd9-99e7-e2a5e4b5ed75
Biggs, Ellie
f0afed06-18ac-4a4d-841c-36ea4ff8a3b4
Roberts, Gareth
fa1fc728-44bf-4dc2-8a66-166034093ef2
Boruff, Bryan
b13be7d3-1d2a-4030-a131-30bf4bfb114b
MacLachlan, Andrew
7256882c-d3c7-4bd9-99e7-e2a5e4b5ed75
Biggs, Ellie
f0afed06-18ac-4a4d-841c-36ea4ff8a3b4
Roberts, Gareth
fa1fc728-44bf-4dc2-8a66-166034093ef2
Boruff, Bryan
b13be7d3-1d2a-4030-a131-30bf4bfb114b

MacLachlan, Andrew, Biggs, Ellie, Roberts, Gareth and Boruff, Bryan (2017) Urban growth dynamics in Perth, Western Australia: using applied remote sensing for sustainable future planning. [in special issue: Urban Land Systems: An Ecosystems Perspective] Land, 6 (1), 1-14. (doi:10.3390/land6010009).

Record type: Article

Abstract

Earth observation data can provide valuable assessments for monitoring the spatial extent of (un)sustainable urban growth of the world’s cities to better inform planning policy in reducing associated economic, social and environmental costs. Western Australia has witnessed rapid economic expansion since the turn of the century founded upon extensive natural resource extraction. Thus, Perth, the state capital of Western Australia, has encountered significant population and urban growth in response to the booming state economy. However, the recent economic slowdown resulted in the largest decrease in natural resource values that Western Australia has ever experienced. Here, we present multi-temporal urban expansion statistics from 1990 to 2015 for Perth, derived from Landsat imagery. Current urban estimates used for future development plans and progress monitoring of infill and density targets are based upon aggregated census data and metrics unrepresentative of actual land cover change, underestimating overall urban area. Earth observation provides a temporally consistent methodology, identifying areal urban area at higher spatial and temporal resolution than current estimates. Our results indicate that the spatial extent of the Perth Metropolitan Region has increased 45% between 1990 and 2015, over 320 km2. We highlight the applicability of earth observation data in accurately quantifying urban area for sustainable targeted planning practices.

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More information

Accepted/In Press date: 18 January 2017
e-pub ahead of print date: 24 January 2017
Published date: 24 January 2017
Related URLs:
Organisations: Global Env Change & Earth Observation

Identifiers

Local EPrints ID: 405112
URI: http://eprints.soton.ac.uk/id/eprint/405112
DOI: doi:10.3390/land6010009
PURE UUID: 2d6ac024-b471-4b12-b3b7-ec9ce6b0f284
ORCID for Gareth Roberts: ORCID iD orcid.org/0009-0007-3431-041X

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Date deposited: 30 Jan 2017 09:49
Last modified: 16 Mar 2024 04:07

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Contributors

Author: Andrew MacLachlan
Author: Ellie Biggs
Author: Gareth Roberts ORCID iD
Author: Bryan Boruff

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