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Systematic conservation planning for nature recovery.

David J Baker1, Kevin J Gaston1, Kristian Metcalfe2

  • 1Environment and Sustainability Institute.

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|August 14, 2025
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Summary
This summary is machine-generated.

Systematic conservation planning can guide nature recovery efforts. Integrating ecological, social, and economic forecasts with spatial prioritization maximizes the impact of restoration resources.

Keywords:
biodiversityecosystem restorationspatial prioritization

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Area of Science:

  • Conservation Science
  • Ecosystem Restoration
  • Spatial Planning

Background:

  • Global commitments to ecosystem restoration (2021-2030 UN Decade on Ecosystem Restoration) are substantial.
  • Over 100 nations aim to halt and reverse land degradation by 2030.
  • Effective implementation of restoration actions is crucial for success.

Purpose of the Study:

  • Advocate for systematic conservation planning to direct nature recovery resources.
  • Demonstrate how to adapt existing frameworks for targeted restoration.
  • Integrate predictive modeling with spatial prioritization for enhanced conservation outcomes.

Main Methods:

  • Utilizing principles of spatial conservation planning.
  • Developing systematic conservation planning frameworks.
  • Integrating forecasting models (ecological, social, economic) with spatial prioritization.

Main Results:

  • Systematic conservation planning offers a robust approach for targeting nature recovery.
  • Adaptable frameworks can guide resource allocation for ecosystem restoration.
  • Forecasting models enhance the effectiveness of spatial prioritization.

Conclusions:

  • Systematic conservation planning is essential for effective nature recovery.
  • Integrating predictive models into planning frameworks optimizes resource deployment.
  • This approach supports global biodiversity and climate targets.