【 摘 要 】

Background

Despite its high number of endemic deciduous broad-leaved species in China’s warm-temperate zone, far less attention has been paid to phylogeographic studies in this region. In this work, the phylogeographic history of Forsythia suspensa endemic to China’s warm-temperate zone was investigated to explore the effect of climate change during the Pleistocene on the distribution of this deciduous broad-leaved species in China.

Results

The cpDNA data revealed seven phylogeographical groups corresponding to geographical regions. By contrast, the nrDNA data supported the samples clustered into three groups, which was inconsistent with separate geographical regions supported by cpDNA data. Ecological niche modeling showed that the climatically suitable area during the cold period was larger than that during the warm period.

Conclusions

Both molecular data and ecological niche modeling indicated that F. suspensa expanded to nearby low-elevation plains in the glacial periods, and retreated to mountaintops during interglacial warmer stages. This study thus supported that F. suspensa persisted in situ during the glacial of the Pleistocene with enlarged distribution area, contrary to the hypothesis of long distance southward migration or large-scale range contraction.

【 授权许可】

   
2014 Fu et al.; licensee BioMed Central Ltd.

【 预 览 】

附件列表

Files	Size	Format	View
20140722034416745.pdf	1630KB	PDF	download
	171KB	Image	download
	50KB	Image	download
	41KB	Image	download
	59KB	Image	download
	139KB	Image	download

【 图 表 】

【 参考文献 】

• [1]Hewitt GM: Some genetic consequences of ice ages, and their role in divergence and speciation. Biol J Linn Soc 1996, 58(3):247-276.
• [2]Comes HP, Kadereit JW: The effect of Quaternary climatic changes on plant distribution and evolution. Trends Plant Sci 1998, 3(11):432-438.
• [3]Hewitt GM: The genetic legacy of the Quaternary ice ages. Nature 2000, 405(6789):907-913.
• [4]Hewitt GM: Genetic consequences of climatic oscillations in the Quaternary. Philos Trans Roy Soc Lond B Biol Sci 2004, 359(1442):183-195.
• [5]Hewitt GM: Ice ages: their impact on species distributions and evolution. In Evolution on Planet Earth. Edited by Rothschild LJ, Lister AM. Oxford: Academic Press; 2003:339-361.
• [6]Petit RJ, Aguinagalde I, de Beaulieu JL, Bittkau C, Brewer S, Cheddadi R, Ennos R, Fineschi S, Grivet D, Lascoux M: Glacial refugia: hotspots but not melting pots of genetic diversity. Science 2003, 300(5625):1563-1565.
• [7]Avise JC: Phylogeography: retrospect and prospect. J Biogeogr 2009, 36(1):3-15.
• [8]Hickerson MJ, Carstens BC, Cavendar-Bares J, Crandall KA, Graham CH, Johnson JB, Rissler L, Victoriano PF, Yoder AD: Phylogeography’s past, present and future: 10 years after Avise, 2000. Mol Phylogenet Evol 2010, 54(1):291-301.
• [9]Shi YF, Cui ZJ, Su Z: The Quaternary glaciations and enviromental changes in China. Shijiazhuang: Hebei Science and Technology Publishing Press; 2006.
• [10]Li XH, Shao JW, Lu C, Zhang XP, Qiu YX: Chloroplast phylogeography of a temperate tree Pteroceltis tatarinowii (Ulmaceae) in China. J Syst Evol 2012, 50(4):325-333.
• [11]Yu G, Chen X, Ni J, Cheddadi R, Guiot J, Han H, Harrison SP, Huang C, Ke M, Kong Z, Li S, Li W, Liew P, Liu G, Liu J, Liu Q, Liu KB, Prentice IC, Qui W, Ren G, Song C, Sugita S, Sun X, Tang L, van Campo E, Xia Y, Xu Q, Yan S, Yang X, Zhao J, et al.: Palaeovegetation of China: a pollen data based synthesis for the mid-Holocene and last glacial maximum. J Biogeogr 2000, 27(3):635-664.
• [12]Harrison SP, Yu G, Takahara H, Prentice IC: Palaeovegetation: Diversity of temperate plants in East Asia. Nature 2001, 413(6852):129-130.
• [13]Qiu YX, Fu CX, Comes HP: Plant molecular phylogeography in China and adjacent regions: Tracing the genetic imprints of Quaternary climate and environmental change in the world’s most diverse temperate flora. Mol Phylogenet Evol 2011, 59(1):225-244.
• [14]Liu JQ, Sun YS, Ge XJ, Gao LM, Qiu YX: Phylogeographic studies of plants in China: Advances in the past and directions in the future. J Syst Evol 2012, 50(4):267-275.
• [15]Gao LM, Moller M, Zhang XM, Hollingsworth ML, Liu J, Mill RR, Gibby M, Li DZ: High variation and strong phylogeographic pattern among cpDNA haplotypes in Taxus wallichiana (Taxaceae) in China and North Vietnam. Mol Ecol 2007, 16(22):4684-4698.
• [16]Wang HW, Ge S: Phylogeography of the endangered Cathaya argyrophylla (Pinaceae) inferred from sequence variation of mitochondrial and nuclear DNA. Mol Ecol 2006, 15(13):4109-4122.
• [17]Wang J, Gao P, Kang M, Lowe AJ, Huang H: Refugia within refugia: The case study of a canopy tree Eurycorymbus cavalerieiin subtropical China. J Biogeogr 2009, 36(11):2156-2164.
• [18]Su YJ, Wang T, Zheng B, Jiang Y, Chen GP, Ouyang PY, Sun YF: Genetic differentiation of relictual populations of Alsophila spinulosa in southern China inferred from cpDNA trnL-F noncoding sequences. Mol Phylogenet Evol 2005, 34(2):323-333.
• [19]Tian S, López-Pujol J, Wang H, Ge S, Zhang ZY: Molecular evidence for glacial expansion and interglacial retreat during Quaternary climatic changes in a montane temperate pine (Pinus kwangtungensis Chun ex Tsiang) in southern China. Plant Syst Evol 2010, 284(3–4):219-229.
• [20]Yan HF, Zhang CY, Wang FY, Hu CM, Ge XJ, Hao G: Population expanding with the phalanx model and lineages split by environmental heterogeneity: a case study of Primula obconicain Subtropical China. Plos one 2012, 7(9):e41315.
• [21]Gao XM, Ma KP, Chen LZ: Species diversity of some deciduous broad-leaved forests in the warm-temperate zone and its relations to community stability. Acta Phytoecol Sin 2001, 25(3):283-290.
• [22]Zhu H: Notes on the origin of temperate deciduous broad-leaved forests of East Asia. Bull Bot Res 1997, 17(4):388-396.
• [23]Chen SC, Zhang L, Zeng J, Shi F, Yang H, Mao YR, Fu CX: Geographic variation of chloroplast DNA in Platycarya strobilacea (Juglandaceae). J Syst Evol 2012, 50(4):374-385.
• [24]Qi XS, Chen C, Comes HP, Sakaguchi S, Liu YH, Tanaka N, Sakiom H, Qiu YX: Molecular data and ecological niche modelling reveal a highly dynamic evolutionary history of the East Asian Tertiary relict Cercidiphyllum (Cercidiphyllaceae). New Phytol 2012, 196(2):617-630.
• [25]Zhao C, Wang CB, Ma XG, Liang QL, He XJ: Phylogeographic analysis of a temperate-deciduous forest restricted plant (Bupleurum longiradiatum Turcz.) reveals two refuge areas in China with subsequent refugial isolation promoting speciation. Mol Phylogenet Evol 2013, 68(3):628-643.
• [26]Graur D, Li WH: Fundamentals of Molecular Evolution. 2nd edition. Sunderland Massachusetts: Sinauer Associates press; 2000.
• [27]Hamrick JL, Godt MJW, Sherman-Broyles SL: Factors influencing levels of genetic diversity in woody plant species. New For 1992, 6(1–4):95-124.
• [28]Hamrick JL, Godt MJW: Conservation genetics of endemic plant species. In Conservation Genetics. Edited by Avise JC, Hamrick JL. New York: Chapman and Hall; 1996:281-304.
• [29]Nybom H: Comparison of different nuclear DNA markers for estimating intraspecific genetic diversity in plants. Mol Ecol 2004, 13(5):1143-1155.
• [30]Li JY, Zhang ZX, Yi WY: Flower structure and reproduction system of Forsythia suspensa Vahl. Acta Bot Boreal-Occident Sin 2006, 26(8):1548-1553.
• [31]Wang XX, Yue JP, Sun H, Li ZM: Phylogeographical study on Eriophyton wallichii (Labiatae) from alpine scree of Qinghai Tibetan Plateau. Plant Divers Resour 2011, 33(6):605-614.
• [32]Li Y, Liu P, Li YH: Intraspecific variation of Achyranthes bidentata (Amaranthaceae) in the geo-authentic product area based on internal transcribed spacer sequences of ribosomal DNA. Aust J Crop Sci 2012, 6(12):1655-1660.
• [33]Petit RJ, Duminil J, Fineschi S, Salvini D, Vendramin GG: Comparative organization of chloroplast, mitochondrial and nuclear diversity in plant populations. Mol Ecol 2005, 14(3):689-701.
• [34]Petit RJ, Vendramin GG: Phylogeography of organelle DNA in plants: an introduction. In Phylogeography of southern European Refugia. Edited by Weiss S, Ferrand N. New York: Springer; 2007:23-97.
• [35]Hodgins KA, Barrett SCH: Population structure and genetic diversity in tristylous Narcissus triandrus: Insights from microsatellite and chloroplast DNA variation. Mol Ecol 2007, 16(11):2317-2332.
• [36]Petit RJ, Grivet D: Optimal randomization strategies when testing the existence of a phylogeographic structure. Genetics 2002, 161(1):469-471.
• [37]Bartish IV, Kadereit JW, Comes HP: Late Quaternary history of Hippophae rhamnoides L. (Elaeagnaceae) inferred from chalcone synthase intron (Chsi) sequences and chloroplast DNA variation. Mol Ecol 2006, 15(13):4065-4083.
• [38]Printzen C, Ekman S, Tonsberg T: Phylogeography of Cavernularia hultenii: evidence of slow genetic drift in a widely disjunct lichen. Mol Ecol 2003, 12(6):1473-1486.
• [39]Ma SM, Zhang ML, Sanderson SC: Phylogeography of the rare Gymnocarpos przewalskii (Caryophyllaceae): indications of multiple glacial refugia in north-western China. Aust J Bot 2012, 60(1):20-31.
• [40]Willis KJ, Van Andel TH: Trees or no trees? The environments of central and eastern Europe during the Last Glaciation. Quaternary Sci Rev 2004, 23(23–24):2369-2387.
• [41]Petit RJ, Hu FS, Dick CW: Forests of the past: a window to future changes. Science 2008, 320(5882):1450-1452.
• [42]Taberlet P, Gielly L, Pautou G, Bouvet J: Universal primers for amplification of three noncoding regions of chloroplast DNA. Plant Mol Biol 1991, 17(5):1105-1109.
• [43]Kress WJ, Wurdack KJ, Zimmer EA, Weigt LA, Janzen DH: Use of DNA barcodes to identify flowering plants. Proc Natl Acad Sci U S A 2005, 102(23):8369-8374.
• [44]White TJ, Bruns T, Lee S, Taylor J: Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. In PCR protocols: a guide to methods and applications. Edited by Innis MS, Gelfand DH, Sninsky JJ, White TJ. San Diego: Academic Press; 1990:315-322.
• [45]Thompson JD, Gibson TJ, Plewniak F, Jeanmougin F, Higgins DG: The ClustalX windows interface: Flexible strategies for multiple sequence alignment aided by quality analysis tools. Nucleic Acids Res 1997, 25(24):4876-4882.
• [46]Clark AG: Inference of haplotypes from PCR-amplified samples of diploid populations. Mol Biol Evol 1990, 7(2):111-122.
• [47]Zhou RC, Zeng K, Wu W, Chen XS, Yang ZH, Shi SH, Wu CI: Population genetics of speciation in non-model organisms: I. Ancestral polymorphism in mangroves. Mol Biol Evol 2007, 24(12):2746-2754.
• [48]Caicedo AL, Schaal BA: Population structure and phylogeography of Solanum pimpinellifolium inferred from a nuclear gene. Mol Ecol 2004, 13(7):1871-1882.
• [49]Librado P, Rozas J: DnaSP v5: A software for comprehensive analysis of DNA polymorphism data. Bioinformatics 2009, 25(11):1451-1452.
• [50]Clement M, Posada D, Crandall KA: TCS: A computer program to estimate gene genealogies. Mol Ecol 2000, 9(10):1657-1660.
• [51]Tamura K, Peterson D, Peterson N, Stecher G, Nei M, Kumar S: MEGA5: Molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Mol Biol Evol 2011, 28(10):2731-2739.
• [52]Kimura M: A simple method for estimating evolutionary rates of base substitutions through comparative studies of nucleotide sequences. J Mol Evol 1980, 16(2):111-134.
• [53]Felsenstein J: Confidence limits on phylogenies: an approach using the bootstrap. Evolution 1985, 39(4):783-791.
• [54]Pritchard JK, Stephens M, Donnelly P: Inference of population structure using multilocus genotype data. Genetics 2000, 155(2):945-959.
• [55]Evanno G, Regnaut S, Goudet J: Detecting the number of clusters of individuals using the software structure: A simulation study. Mol Ecol 2005, 14(8):2611-2620.
• [56]Nei M: Analysis of gene diversity in subdivided populations. Proc Natl Acad Sci U S A 1973, 70(12):3321-3323.
• [57]Excoffier L, Lischer HEL: Arlequin suite ver 3.5: A new series of programs to perform population genetics analyses under Linux and Windows. Mol Ecol Resour 2010, 10(3):564-567.
• [58]Excoffier L, Smouse PE, Quattro JM: Analysis of molecular variance inferred from metric distances among DNA haplotypes: Application to human mitochondrial DNA restriction data. Genetics 1992, 131(2):479-491.
• [59]Jensen JL, Bohonak AJ, Kelley ST: Isolation by distance, web service. BMC Genet 2005, 6:13.
• [60]Acevedo P, Melo-Ferreira J, Real R, Alves PC: Past, present and future distributions of an Iberian Endemic, Lepus granatensis: ecological and evolutionary clues from species distribution models. PLoS One 2012, 7(12):e51529.
• [61]ESRI: ArcGIS Desktop: Release 10. Redlands, CA: Environmental Systems Research Institute; 2011.
• [62]Ennos RA: Estimating the relative rates of pollen and seed migration among plant populations. Heredity 1994, 72(3):250-259.
• [63]Tajima F: Statistical method for testing the neutral mutation hypothesis by DNA polymorphism. Genetics 1989, 123(3):585-595.
• [64]Fu YX: Statistical tests of neutrality of mutations against population growth, hitchhiking and background selection. Genetics 1997, 47(2):915-925.
• [65]Chiang YC, Schaal BA, Ge XJ, Chiang TY: Range expansion leading to departures from neutrality in the nonsymbiotic hemoglobin gene and the cpDNA trnL-trnF intergenic spacer in Trema dielsiana (Ulmaceae). Mol Phylogenet Evol 2004, 31(3):929-942.
• [66]Peterson AT, Soberón J, Sánchez-Cordero V: Conservatism of ecological niches in evolutionary time. Science 1999, 285(5431):1265-1267.
• [67]Phillips SJ, Anderson RP, Schapire RE: Maximum entropy modeling of species geographic distributions. Ecol Model 2006, 190(3–4):231-259.
• [68]Flanders J, Li W, Stephen JR, Zhang SY: Identifying the effects of the Pleistocene on the greater horseshoe bat, Rhinolophus ferrumequinum, in East Asia using ecological niche modelling and phylogenetic analyses. J Biogeogr 2011, 38(3):439-452.
• [69]Elith J, Graham CH, Anderson RP, Dudík M, Ferrier S, Guisan A, Hijmans RJ, Huettmann F, Leathwick JR, Lehmann A, Li J, Lohmann LG, Loiselle BA, Manion G, Moritz C, Nakamura M, Nakazawa Y, McC J, Overton M, Peterson AT, Phillips SJ, Richardson K, Scachetti-Pereira R, Schapire RE, Soberón J, Williams S, Wisz MS, Zimmermann NE: Novel methods improve prediction of species’ distributions from occurrence data. Ecography 2006, 29(2):129-151.
• [70]Hijmans RJ, Cameron SE, Parra JL, Jones PG, Jarvis A: Very high resolution interpolated climate surfaces for global land areas. Int J Climatol 2005, 25(15):1965-1978.
• [71]Collins WD, Bitz CM, Blackmon ML, Bonan GB, Bretherton CS, Carton JA, Chang P, Doney SC, Hack JJ, Henderson TB, Kiehl JT, Large WG, McKenna DS, Santer BD, Smith RD: The community climate system model version 3 (CCSM3). J Clim 2006, 19(11):2122-2143.
• [72]Anderson RP, Raza A: The effect of the extent of the study region on GIS models of species geographic distributions and estimates of niche evolution: preliminary tests with montane rodents (genus Nephelomys) in Venezuela: Effect of study region on models of distributions. J Biogeogr 2010, 37(7):1378-1393.
• [73]VanDerWal J, Shoo LP, Graham G, Williams SE: Selecting pseudo-absence data for presence-only distribution modeling: How far should you stray from what you know? Ecol Model 2009, 220(4):589-594.