Using qualitative methods to support recovery of endangered species: The case of red-cockaded woodpecker foraging habitat

  • Authors: Garabedian, James E.; Peterson, M. Nils; Moorman, Christopher E.; Kilgo, John C.
  • Publication Year: 2019
  • Publication Series: Scientific Journal (JRNL)
  • Source: Global Ecology and Conservation
  • DOI: 10.1016/j.gecco.2019.e00553

Abstract

Meta-analyses are powerful tools for synthesizing wildlife-habitat relationships, but small sample sizes and complex species-habitat relationships often preclude correlative metaanalyses on endangered species. In this study, we demonstrate qualitative comparative analysis (QCA) as a tool that can reliably synthesize habitat-fitness relationships from small sample sizes for species with narrow habitat requirements.We apply QCA to results from a habitat threshold regression tree model and identify habitat thresholds with consistent positive effects on fitness of the federally endangered red-cockaded woodpecker (Dryobates borealis; RCW) on the Savannah River Site, USA. We reformulated regression tree results in a QCA framework to examine the consistency of threshold effects on RCW fledgling production at the individual group level (n = 47). Synthesizing regression tree results with QCA revealed alternative combinations of habitat thresholds that in conjunction with group size consistently led to above-average fledgling production for 41 of 47 (88%) individual RCW groups. Importantly, QCA identified unique combinations of habitat thresholds and group size related to above-average fledgling production that were not retained in the regression tree model due to small sample sizes. Synthesizing a small habitat-fitness dataset using QCA provided a tractable method to identify unique combinations of habitat and group size conditions that are consistently important to individual fitness, but may not be detected by meta-analyses that can be biased by small sample sizes. QCA offers a viable approach for synthesis of habitat-fitness relationships and can be extended to address many complex issues in endangered species recovery when correlative meta-analyses are not possible.

  • Citation: Garabedian, James E.; Peterson, M. Nils; Moorman, Christopher E.; Kilgo, John C. 2019. Using qualitative methods to support recovery of endangered species: The case of red-cockaded woodpecker foraging habitat. Global Ecology and Conservation. 17: e00553-. https://doi.org/10.1016/j.gecco.2019.e00553.
  • Keywords: Endangered species, Habitat threshold, Pine forest, Meta-analysis, Population fitness, Recovery plan
  • Posted Date: May 1, 2019
  • Modified Date: May 3, 2019
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