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Phylogenetic Analysis Informed by Geological History Supports Multiple, Sequential Invasions of the Mediterranean Basin by the Angiosperm Family Araceae

Mansion, Guilhem ; Rosenbaum, Gideon ; Schoenenberger, Nicola ; Bacchetta, Gianluigi ; Rosselló, Josep A. ; Conti, Elena

In: Systematic Biology, 2008, vol. 57, no. 2, p. 269-285

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    Title
    • Phylogenetic Analysis Informed by Geological History Supports Multiple, Sequential Invasions of the Mediterranean Basin by the Angiosperm Family Araceae
    Author
    • Mansion, Guilhem. Institut für Systematische Botanik, Universität Zürich Zollikerstrasse 107, 8008 Zürich Switzerland; E-mail: guilhem.mansion@systbot.uzh.ch (G.M.)
    • Rosenbaum, Gideon. School of Physical Sciences-Earth Sciences The University of Queensland Steele Building, St Lucia, Brisbane 4072, Australia
    • Schoenenberger, Nicola. Laboratoire de Botanique Evolutive, Université de Neuchâtel Emile Argand 11, 2007 Neuchâtel, Switzerland
    • Bacchetta, Gianluigi. Centro Conservazione Biodiversità (CCB), Dipartimento di Scienze Botaniche, Università degli Studi di Cagliari Sant'Ignazio da Laconi, 13, 09123 Cagliari, Italy
    • Rosselló, Josep A.. Jardí Botànic, Universitat de Valencia 46008 Valencia, Spain
    • Conti, Elena. Institut für Systematische Botanik, Universität Zürich Zollikerstrasse 107, 8008 Zürich Switzerland; E-mail: guilhem.mansion@systbot.uzh.ch (G.M.)
    Document Type
    • Postprint
    OAI-PMH Identifier
    • oai:doc.rero.ch:298916
    Summary
    Despite the remarkable species richness of the Mediterranean flora and its well-known geological history, few studies have investigated its temporal and spatial origins. Most importantly, the relative contribution of geological processes and long-distance dispersal to the composition of contemporary Mediterranean biotas remains largely unknown. We used phylogenetic analyses of sequences from six chloroplast DNA markers, Bayesian dating methods, and ancestral area reconstructions, in combination with paleogeographic, paleoclimatic, and ecological evidence, to elucidate the time frame and biogeographic events associated with the diversification of Araceae in the Mediterranean Basin. We focused on the origin of four species, Ambrosina bassii, Biarum dispar, Helicodiceros muscivorus, Arum pictum, subendemic or endemic to Corsica, Sardinia, and the Balearic Archipelago. The results support two main invasions of the Mediterranean Basin by the Araceae, one from an area connecting North America and Eurasia in the Late Cretaceous and one from the Anatolian microplate in western Asia during the Late Eocene, thus confirming the proposed heterogeneous origins of the Mediterranean flora. The subendemic Ambrosina bassii and Biarum dispar likely diverged sympatrically from their widespread Mediterranean sister clades in the Early-Middle Eocene and Early-Middle Miocene, respectively. Combined evidence corroborates a relictual origin for the endemic Helicodiceros muscivorus and Arum pictum, the former apparently representing the first documented case of vicariance driven by the initial splitting of the Hercynian belt in the Early Oligocene. A recurrent theme emerging from our analyses is that land connections and interruptions, caused by repeated cycles of marine transgressions-regressions between the Tethys and Paratethys, favored geodispersalist expansion of biotic ranges from western Asia into the western Mediterranean Basin and subsequent allopatric speciation at different points in time from the Late Eocene to the Late Oligocene