Phylogeography of the endangered <i>Cathaya argyrophylla</i> (Pinaceae) inferred from sequence variation of mitochondrial and nuclear DNA

Wang, Hongwei; Ge, Song

doi:10.1111/j.1365-294x.2006.03086.x

Cited by 133 publications

(108 citation statements)

References 72 publications

(143 reference statements)

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“…The low genetic diversity within populations and high genetic differentiation among populations we observed in A. ziyuanensis are similar to that of another relictual endangered conifer species in China, Cathaya argyrophylla (Wang et al 1996;Ge et al 1998), which may be partially ascribed to the evolutionary history (Wang and Ge 2006). Specifically, the present distribution of A. ziyuanensis is restricted to several isolated alpine habitats with cold microclimates in South China (Ning et al 2005, Zhang et al 2004).…”

Section: Genetic Structuresupporting

confidence: 69%

Genetic diversity of relictual and endangered plant Abies ziyuanensis (Pinaceae) revealed by AFLP and SSR markers

Tang

Dai

et al. 2007

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Abies ziyuanensis is a highly endangered fir species endemic to South China. Unlike other Abies species that are distributed in areas with cold climates, A. ziyuanensis is restricted to several isolated island-like localities at subtropical mountains. In this study, we used dominant amplified fragment length polymorphism (AFLP) and co-dominant simple sequence repeats (SSR) markers to infer the genetic structure of A. ziyuanensis. Seven populations consisting of 139 individuals were sampled across their whole distribution. A. ziyuanenesis has a relatively low level of genetic variation, with a mean genetic diversity per population (He) of 0.136 (AFLP) and 0.337 (SSR), which is lower than that of other reported endemic species based on the same kind of marker. We observed high population differentiation, with Gst = 0.482 (AFLP) and Fst = 0.250 (SSR), among the seven populations. AMOVA also detected significant differentiation among populations (Phist (AFLP) = 0.550 and Phist (SSR) = 0.289) and among regions (Phict (AFLP) = 0.139 and Phict (SSR) = 0.135) in both marker types. Both ongoing evolutionary forces (e.g., genetic drift resulting from small population size) and historical events (e.g., population contraction and fragmentation during and after the Quaternary glacial cycles) may have contributed to the genetic structure in A. ziyuanensis.

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Section: Genetic Structuresupporting

confidence: 69%

Genetic diversity of relictual and endangered plant Abies ziyuanensis (Pinaceae) revealed by AFLP and SSR markers

Tang

Dai

et al. 2007

Genetica

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“…However, the level of nucleotide diversity revealed in our study was in the same order or slightly higher than those reported for other conifers e.g., Cryptomeria japonica (π sil = 0.0039) over seven loci (Kado et al, 2003), Cathaya argyrophylla (π sil = 0.0024) (Wang and Song, 2006), Pinus tabuliformis, P. yunnanensis and P. densata (π sil = 0.0087 ~ 0.0128 over 7 loci, (Ma et al, 2006). It thus appears that contrary to previous suggestions Larix species have levels of nucleotide diversity comparable to other conifers.…”

Section: Discussioncontrasting

confidence: 41%

Phylogeography of Eurasian Larix species inferred from nucleotide variation in two nuclear genes

et al. 2008

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Larch (Larix Mill.) is one of the most widely distributed tree genera in Eurasia. To determine population structure and to verify classification of five species and three varieties of the Eurasian Larix species, we investigated levels and patterns of nucleotide variation of two nuclear gene regions: the 4-coumarate coenzyme A ligase (4CL) and the coumarate 3-hydroxylase (C3H). In the 4CL region nucleotide diversity at silent sites (π sil ) varied between 0.0020 in L. gmelinii to 0.0116 in L. gmelinii var. japonica and in the C3H region between 0.0019 in L. kaempferi to 0.0066 in L. gmelinii var. japonica. In both gene regions statistically significant population differentiation (F ST ) was detected among adjacent refugial populations of some species suggesting limited gene flow and/or long time isolation of some refugial populations. On the other hand, populations of L. sukaczewii from northwestern Russia, which was glaciated 20,000 years ago showed no differentiation. This result is consistent with recent postglacial origin of these populations. Haplotype composition of some of the investigated Eurasian Larix species suggested that they are considerably diverged. Some haplotypes were unique to individual species. Our results indicate that more intensive sampling especially from known refugial regions is necessary for inferring correct classification of Eurasian Larix species and inferring their postglacial migration.

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“…This region has been presumed to be a long-term refuge for plant species in general because of its high diversity and endemism (Ying et al 1993;Wu and Wu 1996;Ying 2001;Wang et al 2009). Many ancient plant species, such as Cathaya argyrophylla, Emmenopterys henryi, C. japonicum, Tetracentron sinense, Ginkgo biloba, Thuja sutchuenensis and Metasequoia glyptostroboides, are found in this region (Ying et al 1993;Wang and Ge 2006;Gong et al 2008). Rather unexpectedly in this study, haplotype H13 grouped in the same lineage as H1 (HPGI) but was distributed outside of the Wuling Mts.…”

Section: Potential Glacial Refugiamentioning

confidence: 59%

Chloroplast DNA phylogeographic analysis reveals significant spatial genetic structure of the relictual tree Davidia involucrata (Davidiaceae)

et al. 2014

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The dove tree, Davidia involucrata Baill. (Davidiaceae), is a relict species endemic to China. Human activities and the strict requirements for seedling recruitments have led to the decline in number of individuals in extant natural populations of this species. In order to provide information for the design of conservation management strategies for D. involucrata, we investigated the phylogeographical pattern of this relict tree. Our sampling included 256 individuals from 32 natural populations of D. involucrata in China and we sequenced six chloroplast DNA (cpDNA) non-coding regions. We distinguished a total of 13 different cpDNA haplotypes. From the cpDNA variation in D. involucrata, we found a very high level of regional differentiation (F ST = 0.812) and a strong phylogeographical pattern (N ST = 0.996 [ G ST = 0.981, P \ 0.05). Phylogenetic analysis reveals three main cpDNA haplotype lineages and four population groups. The split between these geographical groups can be dated back from the late Pliocene to early Pleistocene. Nonoverlapping distribution of chloroplast haplotypes and high genetic differentiation among four distinct geographical groups suggest that D. involucrata probably survives in four separate glacial refugia. Our findings have an important implication for conservation of its genetic diversity. The deduced glacial survival areas for D. involucrata should be recognized as four ''evolutionary significant units'' and be considered as separate targets in conserving its genetic diversity.

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Phylogeography of the endangered Cathaya argyrophylla (Pinaceae) inferred from sequence variation of mitochondrial and nuclear DNA

Cited by 133 publications

References 72 publications

Genetic diversity of relictual and endangered plant Abies ziyuanensis (Pinaceae) revealed by AFLP and SSR markers

Genetic diversity of relictual and endangered plant Abies ziyuanensis (Pinaceae) revealed by AFLP and SSR markers

Phylogeography of Eurasian Larix species inferred from nucleotide variation in two nuclear genes

Chloroplast DNA phylogeographic analysis reveals significant spatial genetic structure of the relictual tree Davidia involucrata (Davidiaceae)

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