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Defining and delivering resilient ecological networks: an example for nature conservation in England

Accepted version
Peer-reviewed

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Type

Article

Change log

Authors

Isaac, Nick 
Brotherton, Peter 
Bullock, James 
Gregory, Richard 
Böhning-Gaese, Katrin 

Abstract

  1. Planning for nature conservation has increasingly emphasised the concepts of resilience and spatial networks. Although the importance of networks of habitat for individual species is clear, their importance for long-term ecological resilience and multi-species conservation strategies is less well established.
  2. Referencing spatial network theory, we describe the conceptual basis for defining and assessing a network of wildlife areas that supports the resilience of species to multiple forms of perturbations and pressures. We explore actions that could enhance network resilience at a range of scales, based on ecological principles, with reference to four well-established strategies for intervention in a spatial network (Better, Bigger, More and Joined) from the influential Making Space for Nature report by Lawton et al. (2010).
  3. Building existing theory into useable and scalable approaches applicable to large numbers of species is challenging but tractable. We illustrate the policy context, describe the elements of a long-term adaptive management plan and provide example actions, metrics and targets for early implementation using England as a case study, where there is an opportunity to include large-scale ecological planning in a newly launched 25-year environment plan.
  4. Policy Implications: The scientific principles to place resilience and network theory at the heart of large-scale and long-term environmental planning are established and ready to implement in practice. Delivering a resilient network to support nature recovery is achievable, and can be integrated with ongoing conservation actions. England’s 25 Year Environment Plan provides the ideal testbed.

Description

Keywords

biodiversity, conservation, climate change, habitat management, metapopulation, nature recovery network, network theory, protected area, resilience

Journal Title

Journal of Applied Ecology

Conference Name

Journal ISSN

1365-2664
1365-2664

Volume Title

55

Publisher

Wiley
Sponsorship
We thank the Natural Capital Initiative for funding