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Connectivity among wetlands matters for vulnerable amphibian populations in wetlandscapes

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  • Zamberletti, Patrizia
  • Zaffaroni, Marta
  • Accatino, Francesco
  • Creed, Irena F.
  • De Michele, Carlo

Abstract

Wetlands have been degraded and destroyed, resulting in the decline of many wetland-dependent species populations. Many conservation efforts are based on protection of individual wetlands; however, fluxes of energy, materials and organisms between wetlands create important structural and functional connections upon which several species depend. We investigated the role of individual wetlands within a wetlandscape in sustaining an amphibian population. Wetlandscapes were represented as networks, where nodes were wetlands and links were flows of organisms described by an amphibian population model. Relationships between a wetland’s connectivity to the other wetlands and the abundance of amphibians under different wetland management strategies were examined. The first finding was that wetlands within a network can be classified into sinks (where local mortality exceeds birth rate), sources (where local birth rate exceeds mortality), and pseudo-sinks (where excessive immigration maintains the population above the carrying capacity). These three wetland classes have low, medium, and high Indegree (a parameter reflecting a wetland’s connectivity), respectively. The second finding was that management interventions in wetlands have different consequences according to the wetland’s Indegree: wetland removal has the worst impact on amphibian populations if the wetland is a source, and wetland restoration has the best impact if the wetland is a pseudo-sink. These findings provide support for policies that managing wetlands not as independent objects but as integral parts of the wetlandscape.

Suggested Citation

  • Zamberletti, Patrizia & Zaffaroni, Marta & Accatino, Francesco & Creed, Irena F. & De Michele, Carlo, 2018. "Connectivity among wetlands matters for vulnerable amphibian populations in wetlandscapes," Ecological Modelling, Elsevier, vol. 384(C), pages 119-127.
    • Handle: RePEc:eee:ecomod:v:384:y:2018:i:c:p:119-127
    DOI: 10.1016/j.ecolmodel.2018.05.008
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    References listed on IDEAS

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    1. Ilkka Hanski & Otso Ovaskainen, 2000. "The metapopulation capacity of a fragmented landscape," Nature, Nature, vol. 404(6779), pages 755-758, April.
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    1. Sample, Christine & Bieri, Joanna A. & Allen, Benjamin & Dementieva, Yulia & Carson, Alyssa & Higgins, Connor & Piatt, Sadie & Qiu, Shirley & Stafford, Summer & Mattsson, Brady J. & Semmens, Darius J., 2019. "Quantifying source and sink habitats and pathways in spatially structured populations: A generalized modelling approach," Ecological Modelling, Elsevier, vol. 407(C), pages 1-1.
    2. Salvador García-Ayllón, 2019. "New Strategies to Improve Co-Management in Enclosed Coastal Seas and Wetlands Subjected to Complex Environments: Socio-Economic Analysis Applied to an International Recovery Success Case Study after a," Sustainability, MDPI, vol. 11(4), pages 1-27, February.
    3. Baofeng Cai & Yang Zhang & Xianen Wang & Yu Li, 2018. "An Optimization Model for a Wetland Restoration Project under Uncertainty," IJERPH, MDPI, vol. 15(12), pages 1-12, December.
    4. Allen, Corrie & Gonzales, Rodolphe & Parrott, Lael, 2020. "Modelling the contribution of ephemeral wetlands to landscape connectivity," Ecological Modelling, Elsevier, vol. 419(C).
    5. Shuang Song & Dawei Xu & Shanshan Hu & Mengxi Shi, 2021. "Ecological Network Optimization in Urban Central District Based on Complex Network Theory: A Case Study with the Urban Central District of Harbin," IJERPH, MDPI, vol. 18(4), pages 1-20, February.

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