Phylogenetic endemism (PE), which combines phylogenetic diversity (PD) and range size distributions of co‐occurring taxa, has become a useful approach for the identification of geographical hotspots using evolutionary history in conservation. Howeve...
Phylogenetic endemism (PE), which combines phylogenetic diversity (PD) and range size distributions of co‐occurring taxa, has become a useful approach for the identification of geographical hotspots using evolutionary history in conservation. However, potential limitations could preclude a general assessment of PE, especially in the presence of incongruent phylogenetic signals and the use of different estimates of species distribution at fine spatial scales. Here, we assess the utility of using PE in a recently diversified plant tribe.
Atacama Desert, Argentina, Chile, and Peru.
Schizopetalae tribe from the mustard plant family of Brassicaceae.
We assessed PD and PE to determine whether incongruent phylogenetic trees derived from nuclear and chloroplast DNA and different estimates of species distribution based on species distribution modelling (SDM) and minimum convex polygons (MCP) impact the location of PE hotspots.
Results show negligible influence from discordant phylogenetic signal between gene trees on PE estimates. Instead, the choice of the summary of species' range (i.e. SDM or MCP) has greater influence on the location of PE hotspots.
Despite the observed discrepancies, results of PE are sufficiently congruent to support the use of this index in conservation‐related analyses for the Atacama Desert flora. Nonetheless, further analyses are recommended to determine and contextualize the impacts of phylogenetic incongruence and species distributional estimates on PE, especially when other scenarios involving larger spatial and taxonomic sampling scales remain unexplored.