Conservation action based on threatened species capture taxonomic and phylogenetic richness in breeding and wintering populations of Central Asian birds.

Manuel Schweizer,Tobias Roth,Roman Kashkarov,Raffael Ayé

doi:10.1371/journal.pone.0110511

Manuel Schweizer, Tobias Roth + Show 2 more

Open Access

https://doi.org/10.1371/journal.pone.0110511

Copy DOI

Abstract

Although phylogenetic diversity has been suggested to be relevant from a conservation point of view, its role is still limited in applied nature conservation. Recently, the practice of investing conservation resources based on threatened species was identified as a reason for the slow integration of phylogenetic diversity in nature conservation planning. One of the main arguments is based on the observation that threatened species are not evenly distributed over the phylogenetic tree. However this argument seems to dismiss the fact that conservation action is a spatially explicit process, and even if threatened species are not evenly distributed over the phylogenetic tree, the occurrence of threatened species could still indicate areas with above average phylogenetic diversity and consequently could protect phylogenetic diversity. Here we aim to study the selection of important bird areas in Central Asia, which were nominated largely based on the presence of threatened bird species. We show that although threatened species occurring in Central Asia do not capture phylogenetically more distinct species than expected by chance, the current spatially explicit conservation approach of selecting important bird areas covers above average taxonomic and phylogenetic diversity of breeding and wintering birds. We conclude that the spatially explicit processes of conservation actions need to be considered in the current discussion of whether new prioritization methods are needed to complement conservation action based on threatened species.

Highlights

The IUCN Red List of threatened species ( IUCN RL) constitutes a de facto baseline reference for many conservation decisions [1,2]
The total branch length of the 27 RL species regularly wintering or breeding in Central Asia was 1260.6. As this value was well within the confidence interval under the Null hypothesis that the RL species are randomly distributed over the phylogenetic tree of Central Asian birds (1104.7–1484.3), there is no indication that RL species capture less or more phylogenetic diversity than expected by chance
The species that occurred in at least one of the important bird areas (IBA) grid cells during summer made up 98.9% of the total branch length of the phylogenetic tree containing all species breeding in Central Asia

Summary

Introduction

The IUCN Red List of threatened species ( IUCN RL) constitutes a de facto baseline reference for many conservation decisions [1,2]. Species listed in the IUCN RL ( RL species) and local Red Lists currently play a major role across the world when allocating conservation resources [4]. Apart from threat status, the evolutionary history of species was suggested as an additional currency to allocate conservation resources [5,6]. Phylogenetic diversity (PD hereafter) is a biodiversity measure based on the evolutionary history (i.e., phylogenetic relationships) between taxa [7]. We use PD as a generic term to refer to any of the metrics in the jungle of different indices based on evolutionary relationships between species [8,9]. Safeguarding PD would optimize the preservation of evolutionary potential and possibly ecosystem functioning, and is relevant from a conservation point of view

Objectives

Methods

Results

Discussion

Conclusion