1. Real‐world conservation planning for evolutionary diversity in the Kimberley, Australia, sidesteps uncertain taxonomy
- Author
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Craig Moritz, Dan F. Rosauer, James A. Smith, Paul M. Oliver, Margaret Byrne, Mozes P. K. Blom, Rebecca J. Laver, Sally Potter, Daniel L. Rabosky, Paul Doughty, Ana C. Afonso Silva, Stephen C. Donnellan, J. Scott Keogh, Cecilia Myers, Janine Kinloch, and David J. Coates
- Subjects
0106 biological sciences ,0301 basic medicine ,Conservation planning ,Genetic diversity ,Ecology ,business.industry ,Environmental resource management ,Species diversity ,15. Life on land ,010603 evolutionary biology ,01 natural sciences ,03 medical and health sciences ,Phylogenetic diversity ,Phylogeography ,030104 developmental biology ,Taxon ,Geography ,Marxan ,Taxonomy (biology) ,business ,Ecology, Evolution, Behavior and Systematics ,Nature and Landscape Conservation - Abstract
Targeting phylogenetic diversity (PD) in systematic conservation planning is an efficient way to minimize losses across the Tree of Life. Considering representation of genetic diversity below and above species level, also allows robust analyses within systems where taxonomy is in flux. We use dense sampling of phylogeographic diversity for 11 lizard genera, to demonstrate how PD can be applied to a policy-ready conservation planning problem. Our analysis bypasses named taxa, using genetic data directly to inform conservation decisions. We highlight areas that should be prioritized for ecological management, and also areas that would provide the greatest benefit if added to the multisector conservation estate. We provide a rigorous and effective approach to represent the spectrum of genetic and species diversity in conservation planning.
- Published
- 2018
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