Plant-pollinator coextinctions and the loss of plant functional and phylogenetic diversity.

Marcos Costa Vieira,Marcus Vinicius Cianciaruso,Mário Almeida-Neto,Nina Farwig

doi:10.1371/journal.pone.0081242

Marcos Costa Vieira, Marcus Vinicius Cianciaruso + Show 2 more

Open Access

https://doi.org/10.1371/journal.pone.0081242

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Journal: PloS one	Publication Date: Nov 29, 2013
Citations: 82	License type: CC BY 3.0

Affiliation: Universidade Federal de Goiás

Abstract

Plant-pollinator coextinctions are likely to become more frequent as habitat alteration and climate change continue to threaten pollinators. The consequences of the resulting collapse of plant communities will depend partly on how quickly plant functional and phylogenetic diversity decline following pollinator extinctions. We investigated the functional and phylogenetic consequences of pollinator extinctions by simulating coextinctions in seven plant-pollinator networks coupled with independent data on plant phylogeny and functional traits. Declines in plant functional diversity were slower than expected under a scenario of random extinctions, while phylogenetic diversity often decreased faster than expected by chance. Our results show that plant functional diversity was relatively robust to plant-pollinator coextinctions, despite the underlying rapid loss of evolutionary history. Thus, our study suggests the possibility of uncoupled responses of functional and phylogenetic diversity to species coextinctions, highlighting the importance of considering both dimensions of biodiversity explicitly in ecological studies and when planning for the conservation of species and interactions.

Highlights

Current rates of anthropogenic habitat alteration have raised awareness of a global biodiversity crisis [1]
Our results show that the loss of plant functional diversity is not necessarily coupled with the decline in plant phylogenetic diversity following the loss of their pollinators
While the absence of phylogenetic signal in functional traits would by itself suggest that functional diversity might not track phylogenetic diversity in its faster decline, our results show that declines in functional diversity may deviate from the random expectation in the opposite direction

Summary

Introduction

Current rates of anthropogenic habitat alteration have raised awareness of a global biodiversity crisis [1]. Declines in species numbers have been reported for a wide variety of taxa [2,3], and extinction rates are expected to increase due to predicted global changes [4]. In addition to direct effects on ecosystem services such as nutrient cycling and primary production [5], species extinctions may lead to the loss of interactions on which other species depend for food, shelter, dispersal and reproduction [6,7]. Disruption of pollination by animals may lead to decreased plant productivity and reproductive success [12,13]. Predicted pollinator declines may lead to the disruption of plant communities, which in turn leads to the collapse of the ecosystem services they maintain [1,5]. Since plant functional diversity is strongly related to ecosystem functioning [14,15], the intensity of the decline in ecosystem functioning will depend partly on how quickly plant functional diversity decreases following plant-pollinator coextinctions

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Conclusion