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A decision framework for evidence-based climate adaptation interventions.

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Climate change requires active interventions to boost species resilience. A new framework helps guide adaptation strategies, ensuring they support, rather than hinder, natural evolutionary processes and adaptive capacity.

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Area of Science:

  • Ecology and evolutionary biology
  • Climate change adaptation science

Background:

  • Climate change is accelerating beyond natural adaptive speeds.
  • Active interventions are increasingly necessary to enhance species' climate resilience.
  • Current adaptation strategies may inadvertently disrupt natural evolutionary processes.

Purpose of the Study:

  • To review the potential for climate adaptation interventions to conflict with natural evolutionary processes.
  • To present a decision framework for implementing climate adaptation interventions.
  • To avoid unintended evolutionary consequences of conservation actions.

Main Methods:

  • Literature review of climate adaptation interventions and evolutionary impacts.
  • Development of a decision framework integrating knowledge from genes to ecosystems.
  • Analysis of potential conflicts between human-driven adaptation and natural selection.

Main Results:

  • Interventions must be informed by a comprehensive understanding of species' genetic and ecological contexts.
  • A lack of ecological and genetic knowledge can lead to maladaptive outcomes.
  • The proposed framework guides the selection and implementation of interventions to minimize negative evolutionary effects.

Conclusions:

  • Careful planning is crucial for effective climate adaptation interventions.
  • Integrating evolutionary considerations into conservation planning is essential.
  • The decision framework provides a pathway to support climate resilience without compromising adaptive capacity.