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Planning for Dynamic Connectivity: Operationalizing Robust Decision-Making and Prioritization Across Landscapes Experiencing Climate and Land-Use Change

Author

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  • Megan K. Jennings

    (Biology Department, San Diego State University, 5500 Campanile Drive, San Diego, CA 92182-4614, USA
    Institute for Ecological Monitoring and Management, San Diego State University, San Diego, CA 92182-4614, USA)

  • Emily Haeuser

    (Institute for Health Metrics and Evaluation, University of Washington, Seattle, WA 98195, USA)

  • Diane Foote

    (Biology Department, San Diego State University, 5500 Campanile Drive, San Diego, CA 92182-4614, USA
    Institute for Ecological Monitoring and Management, San Diego State University, San Diego, CA 92182-4614, USA)

  • Rebecca L. Lewison

    (Biology Department, San Diego State University, 5500 Campanile Drive, San Diego, CA 92182-4614, USA
    Institute for Ecological Monitoring and Management, San Diego State University, San Diego, CA 92182-4614, USA)

  • Erin Conlisk

    (Point Blue Conservation Science, Petaluma, CA 94954, USA)

Abstract

Preserving landscape connectivity is one of the most frequently recommended strategies to address the synergistic threats of climate change, habitat fragmentation, and intensifying disturbances. Although assessments to develop plans for linked and connected landscapes in response to climate and land-use change have been increasingly employed in the last decade, efforts to operationalize and implement these plans have been limited. Here, we present a framework using existing, available biological data to design an implementable, comprehensive multispecies connectivity plan. This framework uses a scenario-based approach to consider how ecosystems, habitats, and species may need to adapt to future conditions with an ensemble of connectivity models. We use the south coast ecoregion of California as an example to evaluate and prioritize linkages by combining linked metapopulation models and key landscape features (e.g., conservation planning status and implementation feasibility) to identify and prioritize a multispecies linkage network. Our analyses identified approximately 30,000 km 2 of land, roughly one-fifth of our study area, where actions to preserve or enhance connectivity may support climate adaptation, nearly half of which is already conserved. By developing and implementing a dynamic connectivity assessment with an eye towards projected changes, our analysis demonstrates how dynamic connectivity can be integrated into feasible regional conservation and management plans that account for demographic as well as landscape change. We observed overlap across multiple models, reinforcing the importance of areas that appeared across methods. We also identified unique areas important for connectivity captured by our complementary models. By integrating multiple approaches, the resultant linkage network is robust, building on the strengths of a variety of methods to identify model consensus and reduce uncertainty. By linking quantitative connectivity metrics with prioritized areas for conservation, our approach supports transparent and robust decision-making for landscape planning, despite uncertainties of climate and land-use change.

Suggested Citation

  • Megan K. Jennings & Emily Haeuser & Diane Foote & Rebecca L. Lewison & Erin Conlisk, 2020. "Planning for Dynamic Connectivity: Operationalizing Robust Decision-Making and Prioritization Across Landscapes Experiencing Climate and Land-Use Change," Land, MDPI, vol. 9(10), pages 1-18, September.
    • Handle: RePEc:gam:jlands:v:9:y:2020:i:10:p:341-:d:417765
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    References listed on IDEAS

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    1. Brad H McRae & Sonia A Hall & Paul Beier & David M Theobald, 2012. "Where to Restore Ecological Connectivity? Detecting Barriers and Quantifying Restoration Benefits," PLOS ONE, Public Library of Science, vol. 7(12), pages 1-12, December.
    2. Gippoliti, Spartaco & Battisti, Corrado, 2017. "More cool than tool: Equivoques, conceptual traps and weaknesses of ecological networks in environmental planning and conservation," Land Use Policy, Elsevier, vol. 68(C), pages 686-691.
    3. Simon N. Wood, 2011. "Fast stable restricted maximum likelihood and marginal likelihood estimation of semiparametric generalized linear models," Journal of the Royal Statistical Society Series B, Royal Statistical Society, vol. 73(1), pages 3-36, January.
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    1. Ann Hope Ruzow Holland, 2022. "If all planning is local, how are we going to save tomorrow? Ten pragmatic lessons from the field," Journal of Environmental Studies and Sciences, Springer;Association of Environmental Studies and Sciences, vol. 12(1), pages 177-192, March.
    2. André Fonseca & Vera Zina & Gonçalo Duarte & Francisca C. Aguiar & Patricia María Rodríguez-González & Maria Teresa Ferreira & Maria Rosário Fernandes, 2021. "Riparian Ecological Infrastructures: Potential for Biodiversity-Related Ecosystem Services in Mediterranean Human-Dominated Landscapes," Sustainability, MDPI, vol. 13(19), pages 1-21, September.
    3. Megan K. Jennings & Katherine A. Zeller & Rebecca L. Lewison, 2021. "Dynamic Landscape Connectivity Special Issue Editorial," Land, MDPI, vol. 10(6), pages 1-2, May.
    4. Kimberly R. Hall & Ranjan Anantharaman & Vincent A. Landau & Melissa Clark & Brett G. Dickson & Aaron Jones & Jim Platt & Alan Edelman & Viral B. Shah, 2021. "Circuitscape in Julia: Empowering Dynamic Approaches to Connectivity Assessment," Land, MDPI, vol. 10(3), pages 1-24, March.

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