Rapid and Recent World-Wide Diversification of Bluegrasses (Poa, Poaceae) and Related Genera

Matthias H. Hoffmann,Philipp Hase,Julia Schneider,Martin Röser,Nicolas Salamin

doi:10.1371/journal.pone.0060061

Matthias H. Hoffmann, Philipp Hase + Show 3 more

Open Access

https://doi.org/10.1371/journal.pone.0060061

Copy DOI

Journal: PloS one	Publication Date: Mar 27, 2013
Citations: 29	License type: CC BY 4.0

Affiliation: Martin Luther University Halle-Wittenberg

Abstract

Rapid species diversifications provide fascinating insight into the development of biodiversity in time and space. Most biological radiations studied to date, for example that of cichlid fishes or Andean lupines, are confined to isolated geographical areas like lakes, islands or island-like regions. Using DNA sequence data of the ribosomal internal transcribed spacer (ITS) for many species of the Poa alliance, a group comprising about 775 C3 grass species, revealed rapid and parallel diversifications in various parts of the world. Some of these radiations are restricted to isolated areas like the Andes, whereas others are typical of the lowlands of mainly the northern hemisphere. These radiations thus are not restricted to island-like areas and are seemingly actively ongoing. The ages of the diversifying clades are estimated to be 2.5–0.23 million years (Myr). Conservative diversification rates in the Poa alliance amount to 0.89–3.14 species per Myr, thus are in the order of, or even exceeding, other instances of well-known radiations. The grass radiations of the mainly cold-adapted Poa alliance coincide with the Late Tertiary global cooling, which resulted in the retreat of forests and the subsequent formation of cold-adapted grasslands especially in the northern, but also in parts of the southern hemisphere. The cold tolerance, suggested to be one of the ecological key innovations, may have been acquired during the early diversification of the subfamily Pooideae, but became significant millions of years later during the Pliocene/Pleistocene radiation of the Poa alliance.

Highlights

Plant diversification, i.e. the evolutionary origin of new species, genera and families, proceeds at different speeds
The genus Poa in its traditional circumscription is not a monophyletic group. It premature to speculate on the future taxonomic treatment of the Poa alliance, it seems clear that either some genera may have to be included in Poa to extend the genus or Poa must be split into a couple of smaller genera
The earliest C3 grasses reported from the Miocene of North America were, besides the bambusoid grasses that grow predominantly in the understory of forests, related with Stipa [48]

Summary

Introduction

I.e. the evolutionary origin of new species, genera and families, proceeds at different speeds. Other examples of rapid radiations were found, for example, in the genus Lupinus, in the Central and South American genus Costus or in South African ice plants [3,4,5,6], summarized in [2] The magnitudes of these diversification rates are comparable to the famous radiation of cichlid fishes in east African rift lakes [7]. The clarification of the evolutionary relationship of Poa and neighbouring genera provides first insight into the diversification rates in time and space of this highly diverse plant group with a total of about 775 species. Chloroplast DNA studies using different markers [13,16,19] corroborate the relationship of genera and species used in this analysis, still taxon sampling density for chloroplast DNA sequences is too low for diversification rate estimates

Methods

Results

Conclusion