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Enhancing landscape connectivity through multifunctional green infrastructure corridor modeling and design

CSS Publication Number
Full Publication Date
February 2019

Landscape connectivity is critical for ecosystem health and biodiversity conservation, yet urbanization is increasing habitat fragmentation. Green corridors that connect isolated remnant habitat patches (e.g. parks) can increase connectivity and provide ecosystem services in cities. Vacant land, especially prevalent in shrinking cities, presents a unique opportunity to reconnect these landscapes. This paper provides a practical and replicable approach for assessing landscape connectivity patterns and identifying priority locations for green corridors. The methodology integrates social and ecological factors coupled with site-scale multifunctional greenway designs and is applied to the city of Detroit as a proof of concept. First, we use FRAGSTATS to evaluate structural landscape connectivity patterns at a census tract scale. A functional connectivity assessment based on graph theory and Conefor software is used to validate the results, which indicate that habitat is highly fragmented in Detroit. To identify opportunities to reduce this fragmentation, we use a least-cost path approach to map potential green corridors linking city parks through vacant parcels, alleys, and smaller green spaces, and prioritize these corridors using a gravity model and network analysis. To make the model more concrete and useful for decision-makers, we develop site-level multifunctional corridor design typologies. This study presents a novel approach to assessing urban connectivity and a multi-scalar, systematic methodology for planning urban green infrastructure networks that connects landscape ecology with practical planning and design considerations to maximize social and ecological functions.

Mark Lindquist
Zhenzhen Zhang
Research Areas
Urban Systems and Built Environment
Corridors, Green infrastructure, Habitat fragmentation, Landscape connectivity, Vacant land
Publication Type
Journal Article
Digital Object Identifier
Full Citation
Zhang, Zhenzhen, Sara Meerow, Joshua P. Newell, and M. Lindquist. (2019) “Enhancing landscape connectivity through multifunctional green infrastructure corridor modeling and design.” Urban Forestry and Urban Greening 38: 305-317.