Rapid diversification of Tragopogon and ecological associates in Eurasia |
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| Authors: | C D Bell E V Mavrodiev P S Soltis A K Calaminus D C Albach N Cellinese N Garcia‐Jacas D E Soltis |
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| Institution: | 1. Department of Biological Sciences, University of New Orleans, , New Orleans, LA, USA;2. Department of Biology, University of Florida, , Gainesville, FL, USA;3. Florida Museum of Natural History, University of Florida, , Gainesville, FL, USA;4. AG Biodiversitat und Evolution der Pflanzen, Institut fur Biologie und Umweltwissenschaften, Carl von Ossietzky‐Universitat, , Oldenburg, Germany;5. Institut Botànic de Barcelona (IBB – CSIC – ICUB), , Barcelona, Spain |
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| Abstract: | Tragopogon comprises approximately 150 described species distributed throughout Eurasia from Ireland and the UK to India and China with a few species in North Africa. Most of the species diversity is found in Eastern Europe to Western Asia. Previous phylogenetic analyses identified several major clades, generally corresponding to recognized taxonomic sections, although relationships both among these clades and among species within clades remain largely unresolved. These patterns are consistent with rapid diversification following the origin of Tragopogon, and this study addresses the timing and rate of diversification in Tragopogon. Using BEAST to simultaneously estimate a phylogeny and divergence times, we estimate the age of a major split and subsequent rapid divergence within Tragopogon to be ~2.6 Ma (and 1.7–5.4 Ma using various clock estimates). Based on the age estimates obtained with BEAST (HPD 1.7–5.4 Ma) for the origin of crown group Tragopogon and 200 estimated species (to accommodate a large number of cryptic species), the diversification rate of Tragopogon is approximately 0.84–2.71 species/Myr for the crown group, assuming low levels of extinction. This estimate is comparable in rate to a rapid Eurasian radiation in Dianthus (0.66–3.89 species/Myr), which occurs in the same or similar habitats. Using available data, we show that subclades of various plant taxa that occur in the same semi‐arid habitats of Eurasia also represent rapid radiations occurring during roughly the same window of time (1.7–5.4 Ma), suggesting similar causal events. However, not all species‐rich plant genera from the same habitats diverged at the same time, or at the same tempo. Radiations of several other clades in this same habitat (e.g. Campanula, Knautia, Scabiosa) occurred at earlier dates (45–4.28 Ma). Existing phylogenetic data and diversification estimates therefore indicate that, although some elements of these semi‐arid communities radiated during the Plio‐Pleistocene period, other clades sharing the same habitat appear to have diversified earlier. |
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| Keywords: | phylogenetics plants radiation speciation |
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