Index of Ecological Integrity
Go to the Product(s)
Regional, state, and watershed-scale maps depicting relative integrity of ecological systems on our Conservation Planning Atlas
Technical information about this product on our Spatial Data page
Additional Resources
Website for University of Massachusetts Designing Sustainable Landscapes project
Expanded abstract for Ecological Integrity
Documentation for Ecological Integrity
Website for the Connect the Connecticut landscape conservation design project, which incorporated weighted IEI
Technical description
The index of ecological integrity (IEI) is a measure of relative intactness (i.e., freedom from adverse human modifications and disturbance) and resiliency to environmental change (i.e., capacity to recover from or adapt to changing environmental conditions driven by human land use and climate change). It is a composite index derived from up to 21 different landscape metrics, each measuring a different aspect of intactness (e.g., road traffic intensity, percent impervious) and/or resiliency (e.g., ecological similarity, connectedness) and applied to each 30 m cell.
The index is scaled 0-1 by ecological system and geographic area, such that it varies from sites with relatively low integrity (representing highly developed and/or fragmented areas) to relatively high integrity (representing large, undisturbed natural areas) within each ecosystem type and geographic area (e.g., Northeast, state, ecoregion, watershed). Consequently, boreal forests are compared to boreal forests and emergent marshes are compared to emergent marshes, and so on for each ecosystem type within the specified geographic extent. It doesn't make sense to compare the integrity of an average boreal forest cell to that of an average emergent marsh cell, because the latter have been substantially more impacted by human activities than the former. Scaling by ecological system means that all the cells within an ecological system are ranked against each other in order to determine the cells with the greatest relative integrity for each ecological system within the specified geographic extent.
Case Studies and News Stories
Identifying resilient sites in New Hampshire - North Atlantic LCC Conservation in Action case study
Project Contact(s):
Kevin McGarigal, Director of the Landscape Ecology Lab, University of Massachusetts Amherst
LCC Staff Contact(s):
Scott Schwenk, North Atlantic LCC Science Coordinator
PROJECT PAGE:
Resource Type: | Ecosystems |
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Conservation Targets: | Terrestrial and non-tidal wetland |
Conservation Framework: | Biological Planning, Conservation Design |
Threats/Stressors: | Climate Change, Development/Urban Growth |
Conservation Action: | Site/area management |