Phylogenetic diversity and its conservation in the presence of phylogenetic uncertainty: a case study of cladoceran communities in urban waterbodies

Abstract

The need to protect and preserve biodiversity is a pressing issue and requires that conservation projects be based on solid foundations. Knowledge of species evolutionary history can serve as a tool to help guide conservation projects on the basis of evolutionary heritage. We used communities of Cladocera (Crustacea, Branchiopoda) in urban waterbodies to identify which sites should be prioritized for phylogenetic diversity conservation. Phylogenetic trees were inferred using DNA sequences from two mitochondrial genes. Furthermore, we also evaluated the consequences of phylogenetic uncertainty for identifying sites for conservation priority. Using results from Bayesian analyses, we considered the effect of uncertainty in the phylogenetic tree on phylogenetic diversity (PD) estimation. When phylogenetic uncertainty was taken into account, the conservation value of individual sites became uncertain and several potential comparisons between sites could not be supported. Consequently prioritization of one site over the other could not be defended in biodiversity conservation projects. Our study highlights the fact that accounting for phylogenetic uncertainty can alter the relative conservation priority of sites, as assessed by their phylogenetic diversity. Therefore, variability in the phylogenetic estimates should be consistently considered and integrated into estimates of phylogenetic diversity and conservation decisions to avoid making suboptimal choices.