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Reassessing the Temporal Evolution of Orchids with New Fossils and A Gustafsson, A L S; Verola, C F; Antonelli, A (2010). Reassessing the temporal evolution of orchids with new fossils and a Bayesian relaxed clock, with implications for the diversification of the rare South American genus Hoffmannseggella (Orchidaceae: Epidendroideae). BMC Evolutionary Biology, 10:177. Postprint available at: http://www.zora.uzh.ch University of Zurich Posted at the Zurich Open Repository and Archive, University of Zurich. Zurich Open Repository and Archive http://www.zora.uzh.ch Originally published at: Gustafsson, A L S; Verola, C F; Antonelli, A (2010). Reassessing the temporal evolution of orchids with new Winterthurerstr. 190 fossils and a Bayesian relaxed clock, with implications for the diversification of the rare South American genus CH-8057 Zurich Hoffmannseggella (Orchidaceae: Epidendroideae). BMC Evolutionary Biology, 10:177. http://www.zora.uzh.ch Year: 2010 Reassessing the temporal evolution of orchids with new fossils and a Bayesian relaxed clock, with implications for the diversification of the rare South American genus Hoffmannseggella (Orchidaceae: Epidendroideae) Gustafsson, A L S; Verola, C F; Antonelli, A Gustafsson, A L S; Verola, C F; Antonelli, A (2010). Reassessing the temporal evolution of orchids with new fossils and a Bayesian relaxed clock, with implications for the diversification of the rare South American genus Hoffmannseggella (Orchidaceae: Epidendroideae). BMC Evolutionary Biology, 10:177. Postprint available at: http://www.zora.uzh.ch Posted at the Zurich Open Repository and Archive, University of Zurich. http://www.zora.uzh.ch Originally published at: Gustafsson, A L S; Verola, C F; Antonelli, A (2010). Reassessing the temporal evolution of orchids with new fossils and a Bayesian relaxed clock, with implications for the diversification of the rare South American genus Hoffmannseggella (Orchidaceae: Epidendroideae). BMC Evolutionary Biology, 10:177. Reassessing the temporal evolution of orchids with new fossils and a Bayesian relaxed clock, with implications for the diversification of the rare South American genus Hoffmannseggella (Orchidaceae: Epidendroideae) Abstract BACKGROUND: The temporal origin and diversification of orchids (family Orchidaceae) has been subject to intense debate in the last decade. The description of the first reliable fossil in 2007 enabled a direct calibration of the orchid phylogeny, but little attention has been paid to the potential influence of dating methodology in obtaining reliable age estimates. Moreover, two new orchid fossils described in 2009 have not yet been incorporated in a molecular dating analysis. Here we compare the ages of major orchid clades estimated under two widely used methods, a Bayesian relaxed clock implemented in BEAST and Penalized Likelihood implemented in r8s. We then perform a new family-level analysis by integrating all 3 available fossils and using BEAST. To evaluate how the newly estimated ages may influence the evolutionary interpretation of a species-level phylogeny, we assess divergence times for the South American genus Hoffmannseggella (subfam. Epidendroideae), for which we present an almost complete phylogeny (40 out of 41 species sampled). RESULTS: Our results provide additional support that all extant orchids shared a most recent common ancestor in the Late Cretaceous (approximately 77 million years ago, Ma). However, we estimate the crown age of the five orchid subfamilies to be generally (approximately1-8 Ma) younger than previously calculated under the Penalized Likelihood algorithm and using a single internal fossil calibration. The crown age of Hoffmannseggella is estimated here at approximately 11 Ma, some 3 Ma more recently than estimated under Penalized Likelihood. CONCLUSIONS: Contrary to recent suggestions that orchid diversification began in a period of global warming, our results place the onset of diversification of the largest orchid subfamilies (Orchidoideae and Epidendroideae) in a period of global cooling subsequent to the Early Eocene Climatic Optimum. The diversification of Hoffmannseggella appears even more correlated to late Tertiary climatic fluctuations than previously suggested. With the incorporation of new fossils in the orchid phylogeny and the use of a method that is arguably more adequate given the present data, our results represent the most up-to-date estimate of divergence times in orchids. Gustafsson et al. BMC Evolutionary Biology 2010, 10:177 http://www.biomedcentral.com/1471-2148/10/177 RESEARCH ARTICLE Open Access ReassessingResearch article the temporal evolution of orchids with new fossils and a Bayesian relaxed clock, with implications for the diversification of the rare South American genus Hoffmannseggella (Orchidaceae: Epidendroideae) A Lovisa S Gustafsson1,2, Christiano F Verola3 and Alexandre Antonelli*4 Abstract Background: The temporal origin and diversification of orchids (family Orchidaceae) has been subject to intense debate in the last decade. The description of the first reliable fossil in 2007 enabled a direct calibration of the orchid phylogeny, but little attention has been paid to the potential influence of dating methodology in obtaining reliable age estimates. Moreover, two new orchid fossils described in 2009 have not yet been incorporated in a molecular dating analysis. Here we compare the ages of major orchid clades estimated under two widely used methods, a Bayesian relaxed clock implemented in BEAST and Penalized Likelihood implemented in r8s. We then perform a new family-level analysis by integrating all 3 available fossils and using BEAST. To evaluate how the newly estimated ages may influence the evolutionary interpretation of a species-level phylogeny, we assess divergence times for the South American genus Hoffmannseggella (subfam. Epidendroideae), for which we present an almost complete phylogeny (40 out of 41 species sampled). Results: Our results provide additional support that all extant orchids shared a most recent common ancestor in the Late Cretaceous (~77 million years ago, Ma). However, we estimate the crown age of the five orchid subfamilies to be generally (~1-8 Ma) younger than previously calculated under the Penalized Likelihood algorithm and using a single internal fossil calibration. The crown age of Hoffmannseggella is estimated here at ~11 Ma, some 3 Ma more recently than estimated under Penalized Likelihood. Conclusions: Contrary to recent suggestions that orchid diversification began in a period of global warming, our results place the onset of diversification of the largest orchid subfamilies (Orchidoideae and Epidendroideae) in a period of global cooling subsequent to the Early Eocene Climatic Optimum. The diversification of Hoffmannseggella appears even more correlated to late Tertiary climatic fluctuations than previously suggested. With the incorporation of new fossils in the orchid phylogeny and the use of a method that is arguably more adequate given the present data, our results represent the most up-to-date estimate of divergence times in orchids. Background from ~26 million years (Ma) [2], ~40 Ma [3], ~80 Ma [4] Orchidaceae is the largest and one of the ecologically and to as much as ~110 Ma [5]. A correct time estimation is morphologically most diverse families of flowering plants essential for our understanding of the mechanisms [1]. Several ages have been proposed for the origin of underlying the diversification of orchids, and could con- modern orchid lineages (i.e., their crown age), ranging tribute to discern between alternative hypotheses of diversification - such as significant increases in speciation * Correspondence: [email protected] 4 Gothenburg Botanical Garden, Carl Skottsbergs gata 22A, 413 19 Göteborg, rates temporally correlated to climatic changes, tectonic Sweden events, or radiation of pollinators. Full list of author information is available at the end of the article © 2010 Gustafsson et al; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Com- mons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduc- tion in any medium, provided the original work is properly cited. Gustafsson et al. BMC Evolutionary Biology 2010, 10:177 Page 2 of 13 http://www.biomedcentral.com/1471-2148/10/177 80 7060 50 40 30 20 10 MESOZOIC CENOZOIC Plio- Cretaceous Paleocene Eocene Oligocene Miocene cene LEMELMLELEMLEL Astelia 52 Lanaria 46 Empodium 26 Rhodohypoxis 10 Hypoxis Apostasia 105 43 Apostasioideae Neuwiedia Cypripedium 28 Selenipedium 31 Paphiopedilum Cypripedioideae 20 Phragmipedium 80 Vanilla 58 Cleistes Vanilloideae 34 Pogonia Common Codonorchis ancestor of Disperis Orchidaceae 71 47 Disa 38 19 Monadenia 31 Habenaria 23 Orchis 15 Platanthera Pterostylis 68 Megastylis 40 Pachyplectron 50 Goodyera 30 17 Orchidoideae 38 Platythelys 21 Ludisia 13 Dossinia 36 42 Cranichis 7 Ponthieva Sarcoglottis 16 26 Spiranthes 46 Altensteinia 59 Chloraea Eriochilus 31 Microtis 37 Diuris 32 Chiloglottis Epipactis 22 36 Listera Palmorchis Nervilia 38 44 Sorbralia Cattleya 22 28 Masdevallia 40 Eria 33 Calanthe 26 30 Wullschlaegelia 34 Pleione Epidendroideae Phalaenopsis Cymbidium 31 Higher Galeandra 13 Epidendroids 28 Mormodes Oncidium 21 13 Gongora 9 16 Stanhopea Zygopetalum 17 Bifrenaria 13 Maxillaria 11 Lycaste LEMELMLELEMLEL Plio- Cretaceous Paleocene Eocene Oligocene Miocene cene 80 70 60 50 40 30 20 10 Figure 1 Time-calibrated tree of the Orchidaceae based on plastid DNA sequences
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