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Linking habitat suitability with a longleaf pine-hardwood model: Building a species-predictive fire-land management framework

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  • Jafarov, Elchin E.
  • Loudermilk, Louise E.
  • Hiers, Kevin J.
  • Williams, Brett
  • Linn, Rodman
  • Jones, Chas
  • Hill, Samantha C.
  • Atchley, Adam L.

Abstract

Active management of fire-dependent ecosystems for specific species leads to complex tradeoffs, which affect conservation outcomes to other species. Therefore a multi-species evaluation of management actions is required. Habitat Suitability Models (HSMs) can help in predicting the likelihood of species occurrence using corresponding environmental variables and empirical relationships that link occurrence with specific environmental conditions. Incorporating multiple species into HSMs and relating them to habitat dynamics is crucial for ecosystems that require active management with prescribed fire. To address this issue, we developed multi-species HSM driven within an existing population model of the longleaf pine-hardwood ecosystem to assess the suitability of an ecosystem given different fire management strategies and environmental conditions. The population model used in this study provides spatial and temporal changes of longleaf pine-hardwood habitat structure in response to fire. These habitat values are used by the HSM to calculate habitat suitability for three threatened and endangered faunal species of this ecosystem, which all thrive with frequent fire, but have unique habitat requirements. Transient habitat conditions are traced to predict longleaf pine ecosystem trajectories under various management strategies, thereby evaluating current land management actions, such as thinning or prescribed fire frequencies. We tested a suite of environmental conditions to emphasize the sensitivity of the species to different fire management actions. The results of our modeling suggest that maximum suitable habitat for all three species can be achieved with fire frequency occurring at approximately once every three years. The modeling results support current management actions and provide a new habitat assessment tool that incorporates ecological factors for multiple species, thus providing for habitat optimization.

Suggested Citation

  • Jafarov, Elchin E. & Loudermilk, Louise E. & Hiers, Kevin J. & Williams, Brett & Linn, Rodman & Jones, Chas & Hill, Samantha C. & Atchley, Adam L., 2021. "Linking habitat suitability with a longleaf pine-hardwood model: Building a species-predictive fire-land management framework," Ecological Modelling, Elsevier, vol. 440(C).
    • Handle: RePEc:eee:ecomod:v:440:y:2021:i:c:s0304380020304518
    DOI: 10.1016/j.ecolmodel.2020.109387
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    References listed on IDEAS

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    1. Seidl, Rupert & Fernandes, Paulo M. & Fonseca, Teresa F. & Gillet, François & Jönsson, Anna Maria & Merganičová, Katarína & Netherer, Sigrid & Arpaci, Alexander & Bontemps, Jean-Daniel & Bugmann, Hara, 2011. "Modelling natural disturbances in forest ecosystems: a review," Ecological Modelling, Elsevier, vol. 222(4), pages 903-924.
    2. Conlisk, Erin & Syphard, Alexandra D. & Franklin, Janet & Regan, Helen M., 2015. "Predicting the impact of fire on a vulnerable multi-species community using a dynamic vegetation model," Ecological Modelling, Elsevier, vol. 301(C), pages 27-39.
    3. Liao, Jinbao & Li, Zhenqing & Quets, Jan J. & Nijs, Ivan, 2013. "Effects of space partitioning in a plant species diversity model," Ecological Modelling, Elsevier, vol. 251(C), pages 271-278.
    4. Loudermilk, E.L. & Cropper, W.P. & Mitchell, R.J. & Lee, H., 2011. "Longleaf pine (Pinus palustris) and hardwood dynamics in a fire-maintained ecosystem: A simulation approach," Ecological Modelling, Elsevier, vol. 222(15), pages 2733-2750.
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