Christe Et Al. 2014 J Biogeo.Pdf

Christe Et Al. 2014 J Biogeo.Pdf

Journal of Biogeography (J. Biogeogr.) (2014) 41, 1081–1093 ORIGINAL Footprints of past intensive ARTICLE diversification and structuring in the genus Zelkova (Ulmaceae) in south-western Eurasia Camille Christe1,3, Gregor Kozlowski3,4, David Frey3,5,Sebastien Betrisey3, Elmira Maharramova6, Giuseppe Garfı7, Stergios Pirintsos8,9 and Yamama Naciri1,2* 1Plant Systematics and Biodiversity ABSTRACT Laboratory, Molecular Phylogeny and Aim To elucidate the phylogeographical patterns in three Cenozoic relict spe- Genetics Unit, Conservatoire et Jardin cies: Zelkova sicula, Z. abelicea and Z. carpinifolia (Ulmaceae). botaniques de la Ville de Geneve, CH-1292 2 Chambesy, Geneva, Switzerland, Plant Location Sicily, Crete and Transcaucasia. Systematics and Biodiversity Laboratory, – University of Geneva, CH-1292 Chambesy, Methods Two chloroplast loci (trnH psbA and trnL) and the nuclear ribo- Geneva, Switzerland, 3Department of Biology somal markers ITS1 and ITS2 were sequenced for 154 samples collected from and Botanic Garden, University of Fribourg, 14 populations of Z. abelicea, 16 populations of Z. carpinifolia, and the two CH-1700 Fribourg, Switzerland, 4Natural known populations of Z. sicula. We obtained georeferenced data, calculated History Museum, CH-1700 Fribourg, median joining networks and carried out diversity analyses. A few ex situ Switzerland, 5Conservation Biogeography samples collected from botanical gardens, of the East Asian species Zelkova Group, Department of Geosciences, University serrata, Z. schneideriana and Z. sinica, were also analysed for comparative of Fribourg, CH-1700 Fribourg, Switzerland, purposes. 6Institute of Botany, Azerbaijan National Results Academy of Sciences, AZ-1073 Baku, High levels of variability were found in the chloroplast markers within Azerbaijan, 7National Research Council Z. carpinifolia (15 haplotypes) and Z. abelicea (33 haplotypes), in association (CNR), Institute of Biosciences and with strong phylogeographical structure. Conversely, Z. sicula was characterized Bioresources, I-90129 Palermo, Italy, by low diversity, with each population exhibiting a single haplotype. Lower 8Department of Biology, University of variability was found for ITS1 and ITS2 within Z. carpinifolia and Z. abelicea Crete, GR-71409 Heraklion, Crete, (13 and 7 ribotypes per species, respectively), with Z. carpinifolia showing a Greece, 9Botanical Garden, University of high proportion of populations with no intragenomic polymorphism. In the Crete, GR-74100 Rethymnon, Crete, Greece triploid and clonal Z. sicula, all individuals displayed intragenomic polymor- phism and seven ribotypes were identified. Main conclusions The chloroplast diversity of Z. abelicea and Z. carpinifolia suggests a very ancient history of diversification and structuring, with foot- prints of past expansions and more recent bottlenecks. Zelkova sicula has had a *Correspondence: Yamama Naciri, Laboratoire de Systematique Vegetale et Biodiversite, history of severe isolation and is likely to be of hybrid origin. Unite de Phylogenie et Genetique Moleculaires, Keywords Conservatoire et Jardin botaniques, 1292 Chambesy, Geneva, Switzerland. Chloroplast markers, Crete, internal transcribed spacer, phylogeography, E-mail: [email protected] Sicily, Transcaucasia, Zelkova abelicea, Zelkova carpinifolia, Zelkova sicula. from the European continent or only survived in isolated INTRODUCTION and disjunct refugia of the Transcaucasian region, in the Climatic oscillations during the Quaternary had dramatic Balkan Peninsula and on Mediterranean islands (Milne & effects on the distributions of species worldwide (Hewitt, Abbott, 2002; Quezel & Medail, 2003). 2000). South-western Eurasia, and especially Europe, was Species of Zelkova Spach (Ulmaceae) were important ele- greatly affected by the glaciations (Connor, 2009), because ments of the vast forests that prevailed throughout the both the Mediterranean Sea and east–west-orientated moun- Northern Hemisphere during much of the Cenozoic Period tains prevented many species from migrating southwards. (Mai, 1995; Fineschi et al., 2004; Walker et al., 2012). Today, Several genera of the prominent Cenozoic tree flora vanished the genus comprises six species with disjunct distribution ª 2014 John Wiley & Sons Ltd http://wileyonlinelibrary.com/journal/jbi 1081 doi:10.1111/jbi.12276 C. Christe et al. patterns (Denk & Grimm, 2005): three in eastern Asia [Zel- remain moist during dry summers (Egli, 1997; Søndergaard kova serrata (Thunb.) Makino; Zelkova schneideriana Hand.- & Egli, 2006). The species is highly endangered through hab- Mazz.; and Zelkova sinica C. K. Schneid.], one in south- itat fragmentation and destruction, overgrazing, fire and western Asia [Zelkova carpinifolia (Pall.) C. Koch] and two water stress (Phitos et al., 1995; Søndergaard & Egli, 2006; on the Mediterranean islands of Sicily (Zelkova sicula Di Kozlowski et al., 2014). Pasq., Garfı&Quezel) and Crete [Zelkova abelicea (Lam.) Zelkova carpinifolia grows in the Transcaucasian countries Boiss.]. The oldest fossils attributed to Zelkova date from the of western Asia: Georgia, Armenia, Azerbaijan, Iran and Tur- early Eocene (55 Ma) in western North America, where the key (Guner€ & Zielinski, 1998). This area is considered to be genus is extinct today (Burnham, 1986). one of the most important refugial zones of the Cenozoic Phylogeography, using chloroplast and mitochondrial relict flora in south-western Eurasia (Mai, 1995; Milne & markers, has mostly focused on the Quaternary and the Abbott, 2002). Despite having a relatively wide distribution influence of the cycles of glaciation on species distribution range, Z. carpinifolia is rare and/or threatened in many and structure (Schonswetter€ et al., 2005; Terrab et al., 2008). regions (Davis, 1982; Kozlowski et al., 2012). Two additional Phylogeography has, however, also been used to document taxa have been recognized: Z. carpinifolia subsp. yamraensis more ancient patterns (Petit et al., 2005a; Rodrıguez-Sanchez Ansßin & Gercek was described from Trabzon in north- et al., 2009), with some of them presumably dating as far eastern Turkey, and some populations from southern Azer- back as the early Miocene (Magri et al., 2007). The retrieval baijan have been distinguished as Z. hyrcana Grossh. & Jarm. of ancient patterns may be specific to tree species, which are None of these putative taxa have been investigated using assumed to evolve more slowly than herbaceous plants and molecular methods. shrubs (Petit & Hampe, 2006). Zelkova trees live for centu- Zelkova sicula, discovered in 1991, is endemic to south- ries (Fazan et al., 2012), which is a good indication that eastern Sicily (Di Pasquale et al., 1992). The species has been ancient patterns might be recovered using molecular identified as the most threatened in the genus, with only two markers. known populations and a total of 1800 individuals (Garfı, A few phylogenetic and biogeographical studies have 2006). Zelkova sicula is triploid and produces sterile seeds already been carried out on Zelkova (Fineschi et al., 2002, (Garfı et al., 2011; G. Garfı, Institute of Biosciences and 2004; Denk & Grimm, 2005; Fukatsu et al., 2012), but these Bioresources, Palermo). Although several studies have been studies had small sample sizes or weak representation of wild carried out on one population of this taxon (Nakagawa populations. Our phylogeographical analysis, based on trnH– et al., 1998; Fineschi et al., 2002; Garfı et al., 2002), the phy- psbA, trnL and internal transcribed spacer regions 1 and 2 logenetic position of Z. sicula has not yet been elucidated. (ITS1 and ITS2), is the first to use a comprehensive sampling of natural populations from nearly all the disjunct regions Sampling where Z. abelicea, Z. carpinifolia and Z. sicula presently grow. We aimed to assess the diversity within and among species Leaf material of Z. abelicea, Z. carpinifolia and Z. sicula was using DNA from two cellular compartments that have differ- retrieved from up to five individuals per population for a ent modes of inheritance and trace different histories (Petit total of 154 trees. The sampling included 14, 16 and 2 popu- et al., 2005b). For comparative purposes, we added speci- lations, respectively; 19 ex situ samples of Z. serrata, mens of the three East Asian Zelkova species, using ex situ Z. schneideriana and Z. sinica collected from botanical gar- collections. dens were also used (see Appendix S1 in Supporting Infor- The following questions were addressed: (1) What are the mation). All voucher specimens (one individual per relationships of the three south-western Eurasian species, and population) were deposited in the herbarium of the Natural how are they related to the East Asian species? (2) What are History Museum in Fribourg, Switzerland. the phylogeographical patterns of the south-west Eurasian species, and what do they convey about the colonization and DNA extraction, amplification and sequencing diversification patterns within species? (3) Do the chloroplast and nuclear loci give congruent information? Total genomic DNA was extracted using the NucleoSpin Plant II kit (Macherey-Nagel, Duren,€ Germany). One cpDNA spacer (trnH–psbA; Shaw et al., 2005), one cpDNA intron MATERIALS AND METHODS (trnL; Taberlet et al., 1991) and two nrDNA markers (ITS1: Denk et al., 2002; ITS2: White et al., 1990) were used. Study group Amplifications were carried out in a Biometra thermocycler Zelkova abelicea is endemic to Crete (Greece); it has a frag- (Gottingen,€ Germany)

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