L-F序列研究肋果沙棘的谱系地理学

由于青藏高原的地理效应, 第四纪冰期气候的反复变化应对现今该地区生物的地理分布及其居群遗传结构产生重大影响。肋果沙棘Hippophae neurocarpa是青藏高原地区的一个特有种, 根据叶上的附属物(星状鳞毛或者鳞片状鳞毛)分为两个亚种: 肋果沙棘亚种subsp. neurocarpa和密毛肋果沙棘亚种subsp. stellatopilosa。依据母系遗传的叶绿体DNA片段对该物种谱系地理学进行研究不仅能阐明该物种冰期避难所, 而且对于理解两个亚种的母系分化也具有重要意义。共对两个亚种14居群的70个个体的trnL-F序列进行了测序, 共发现8种单倍型, 其中5种单倍型出现在肋果沙棘亚种中, 4种出现在密毛肋果沙棘亚种中, 两个亚种共享一种单倍型。种内谱系分化与两个亚种形态上的分化不一致。嵌套进化分支把8种单倍型分为三支: 一支为肋果沙棘亚种, 其他两支中两个亚种单倍型嵌套组成, 且肋果沙棘亚种处于进化末端。我们的研究结果还表明肋果沙棘在冰期可能在高海拔地区存在多个避难所, 并且存在来自避难所的邻域扩张。     

江孜沙棘和云南沙棘之间谱系分化和亲缘地理

研究具有邻近分布的近缘类群的遗传分化和谱系筛选对于进一步揭示物种形成机制具有重要意义。该文以沙棘属(Hippophae)临域分布的两个类群, 江孜沙棘(H. gyantsensis)和云南沙棘(H. rhamnoides subsp. yunnanensis)为研究对象, 进行群体水平上的母系分化研究。前一个种分布于西藏的中西部, 而后者主要分布于青藏高原东南部的云南西北部、四川西部和西藏东南部。两个类群在叶和果实性状存在明显区别。叶绿体在沙棘属植物中为母系遗传。共研究了两个类群14种群109个沙棘个体的叶绿体trnL-F、trnS-G序列; 序列排序后共发现11种单倍型, 江孜沙棘和云南沙棘分别有7种和6种, 两种单倍型为两个类群共享。分支分析和嵌套进化分析进一步表明, 两个类群之间的单倍型相互交错, 单倍型分化与形态上划分的两个类群不一致, 表明它们之间具有十分复杂的谱系筛选过程。这些发现明显不支持以前提出的有关江孜沙棘系统位置的假设。但是, 目前所获得的证据不能区分该物种究竟是通过异域分化还是同倍性杂交起源的。不同种群固定特有单倍型表明, 两个类群都在最后一次冰期可能存在多个避难所。     

唐古特虎耳草谱系地理学研究

利用叶绿体基因(trnL-trnF和rpl16)对青藏高原地区的18个唐古特虎耳草(Saxifraga tangutica Engl.)居群(209个个体)进行谱系地理学研究,以揭示唐古特虎耳草的现有遗传结构及其历史演化过程。结果表明:(1)从209个个体中共检测到74个单倍型,且只有单倍型H5在居群中广泛分布,71.62%的单倍型为居群特有单倍型。(2)分子变异分析(AMOVA)显示,91.85%的遗传变异来源于居群内,居群间遗传分化不明显(F_(ST)=0.081);遗传分化系数N_(ST)(0.109)大于G_(ST)(0.097,P0.05)但不显著,表明唐古特虎耳草在其整个分布范围内没有明显的谱系地理结构。(3)中性检验表明,Tajima’s D(-2.045 07,P0.05)和FuLi’D*值(-3.629 27,P0.05)均为显著的负值,结合单峰的错配分布曲线,表明该物种经历过近期扩张。研究推测,唐古特虎耳草在第四纪冰期时可能存在多个微型避难所,由于第四纪冰期气候的反复波动,使得原来连续的居群片段化,避难所内的居群单独进化,从而形成了大量特有单倍型;唐古特虎耳草居群对第四纪冰期气候波动的反应可能更多的表现为垂直海拔高度的迁移,而非大规模的水平迁移。     

青藏高原及其毗邻山区蒙古绣线菊谱系地理学研究

以青藏高原及其毗邻山区的蒙古绣线菊23个居群324个个体为研究对象,选取叶绿体DNA非编码区trnL-trnF和rps15-ycf1片段对蒙古绣线菊进行谱系地理学研究。结果表明:(1)该研究区域中蒙古绣线菊亲缘关系相近的单倍型多发生于同一居群中,存在着明显的谱系地理学关系。(2)所检测得到的35个单倍型中,大约71.4%是居群内特有的单倍型,而出现频率最高的H1是最古老的单倍型,贝叶斯分析和单倍型简约网状图显示35个单倍型聚为地理分布范围各不相同的3个分支。(3)歧点分布分析得到分布图呈多峰曲线,说明蒙古绣线菊居群在较长的时间内发展稳定,没有经历突然的近期扩张。(4)BEAST分析结果显示,在45Mya左右开始出现蒙古绣线菊的谱系分支的分化。研究认为,蒙古绣线菊在青藏高原及其毗邻山区可能至少存在3个冰期避难所,其在青藏高原及其毗邻山区的分布格局主要是第四纪冰期-间冰期气候动荡、青藏高原隆升的共同作用的结果。     

南方红豆杉谱系地理学研究

通过对南方红豆杉18个居群499个个体叶绿体基因组的trnL-F片段进行RFLP分析,共检测到6个叶绿体DNA单倍型,其中除台湾居群外的17个居群都包含有单倍型H1和H2;黄山及临安居群除单倍型H1、H2外,还分别各有1个特有单倍型。谱系关系分析显示,单倍型H1、H2为较古老的祖先单倍型。AMOVA分析显示,变异主要存在于居群内,居群间的遗传分化程度较低(26.39%)。嵌套分支分析(NCA)显示,单倍型分布与地理分布存在轻度的地理相关性,南方红豆杉现在的遗传结构可能源于居群的片段化效应,台湾居群可能是由于曾经的居群片段化而隔离或长距离扩散所致;在第四纪冰期,中国东、南部地区可能存在2个以上南方红豆杉的避难所。     

横断山区高山绣线菊的谱系地理学研究

横断山区作为青藏高原东南部主要的一个冰期避难所,第四纪冰期气候的变化对该地区的植物地理分布和居群遗传结构都产生了重要的影响。为了揭示该地区物种分布的分子系统地理学结构,选取在该地区广泛分布的一种高山灌木-高山绣线菊的叶绿体trnL-trnF序列进行研究。采集了15个居群182个个体进行测序,共发现7个单倍型。总的遗传多样性较高(HT=0.809),但居群内遗传多样性较低(HS=0.236)。分子变异分析(AMOVA)结果表明分布区内高山绣线菊的遗传变异主要存在于居群间(84.48%),且居群间的遗传分化很高(GST=0.708,FST=0.84476,NST=0.863),有着显著的谱系地理学结构(NST>GST,P<0.01)和较低的居群间平均基因流(Nm=0.09)。单倍型的系统进化树和进化分支网络分析得到了相似的拓扑结构,7种单倍型都按照地理分布聚为三支:横断山区西部、横断山区东部以及两者的交接地带。本研究推测该物种在横断山区存在多个冰期避难所,而没有表现出大规模的种群集体扩张和迁移的现象。青藏高原隆升、第四纪气候的反复波动以及横断山区特殊的地理环境使得原来连续的居群片段化,并发生范围扩张,从而塑造了高山绣线菊的现代生物地理分布格局。     

青藏高原特有植物青海当归的谱系地理学初探

为探讨第四纪冰期气候波动对青藏高原多年生草本植物青海当归地理分布格局形成的影响,检测了青海当归16个居群147个个体的核糖体内转录间隔区(ITS)的序列变异,共发现了7个单倍型.结果表明除松潘居群外其余15个居群都拥有单倍型H1,青藏高原边缘的居群拥有6种ITS单倍型,其中5种为私有单倍型.谱系关系分析显示单倍型H1为较古老的单倍型,AMOVA分析表明,居群间的变异占了总变异量的67％,居群遗传分化显著,并且存在较明显的谱系地理结构(NST＞GST,P＜0.05).我们认为青海当归在第四纪冰期最大一次冰期来临时退缩到青藏高原边缘的避难所,冰期后在扩张过程中经历了奠基者效应形成了如今的分布格局.     

横断山地区海仙报春的谱系地理学研究

由于横断山地区特殊的地理效应,第四纪冰期气候的反复变化对该地区植物的地理分布和居群遗传结构产生重要影响。为了揭示该地区分布的物种的谱系地理结构,检测了该地区特有的、生于湿地环境的植物海仙报春（Primula poissonii）的叶绿体trnL—F和trnT—L两个序列变异。共对13个居群167个个体的两个叶绿体片段进行测序,共发现11个单倍型。三种单倍型被共享,其他单倍型都只存在于单个居群内。分子变异分析（AMOVA）结果表明分布区内海仙报春的遗传变异主要存在于居群间（99．08％）,且居群间的遗传分化很高（GST=0．916,FST=0．99077,NST=0．973）,有着极显著的谱系地理学结构（NST〉GST,P〈0．01）和较低的居群间平均基因流（Nm=0．08）。结合嵌套分支分析（NCA）,本文的研究结果推测该物种在冰期可能存在多个避难所,并没有表现出大多数温带植物在第四纪冰期所经历过的种群集体扩张和迁移的现象,异域片段化被认为是该物种现有单倍型分布格局形成的主要原因。海仙报春的谱系地理结构是气候的反复波动和横断山特殊的地理环境互相作用的结果。     

基于叶绿体DNA trnT-trnF序列研究祁连圆柏的谱系地理学

由于青藏高原的地貌效应,第四纪冰期气候的反复变化应对现今该地区生物的地理分布及其居群遗传结构产生重大影响。本文对这一地区特有分布物种祁连圆柏Juniperus przewalskii Kom.整个分布区内20居群392个个体的trnT-trnF序列变化进行了研究;共发现3种单倍型(haplotype),构成两种地理区域:高原台面上的居群主要固定Hap A,而Hap A、Hap B和Hap C在高原边缘居群均有分布。所有居群总的遗传多样性HT = 0.511,GST= 0.847。在低海拔的高原边缘,Hap A、Hap B和Hap C高频率固定在不同的居群中,表明可能存在多个不同的避难所,居群反复缩小和扩张的瓶颈效应造成了遗传多样性的丢失。而边缘的一个居群含有两种相似单倍型频率则可能是冰期后迁移融合而成或者该居群在冰期经受的瓶颈作用更弱。高原台面东部间断分布的居群只固定Hap A,表明它们可能经历了冰期后共同的回迁过程和由此产生的奠基者效应。我们的研究结果表明祁连圆柏在冰期可能存在多个避难所,瓶颈效应和奠基者效应造成了这些居群现在的遗传多样性分布式样。     

基于叶绿体基因序列rbcL-accD研究莛子藨的分子遗传多样性和谱系地理结构

莛子藨是莛子藨属的一种多年生草本植物,主要分布在青藏高原东北部及邻近高山地区和日本,为东亚特有种。本文基于叶绿体DNA基因间隔区rbcL-accD序列,对莛子藨物种水平的序列特征、分子遗传多样性和谱系地理结构进行研究。分析结果发现该区域莛子藨种群的遗传变异主要来自于居群间（72.28%）,优势单倍型（H2）广泛分布,特有单倍型分散在多个居群。居群间遗传分化系数N_STST,没有检测到显著谱系地理结构,而且居群间基因流较低（N_m=0.096）,青藏高原及其邻近地区特殊地形和生态环境造成的地理隔离或者生境异质化可能是现有单倍型分布格局形成的原因。种群动态历史分析显示莛子藨经历过不显著的种群选择或者扩张事件,综合分析推测莛子藨居群应该是在间冰期或者冰期后从不同避难所扩散形成现在的分布格局,具体避难所还需进一步深入研究才能确认。     

Clarification of the systematic position of Hippophae goniocarpa (Elaeagnaceae)

New information on (1) Hippophae goniocarpa Y.S. Lian et al . ex Swenson et Bartish and (2) H. goniocarpa ssp. litangensis (Lian et X.L. Chen ex Swenson et Bartish) Lian et K. Sun from China is provided and illustrated. Based on morphological characters and distribution, H. litangensis Y.S. Lian et X.L. Chen ex Swenson et Bartish is re-described as a subspecies. H. goniocarpa (including ssp. litangensis ) is a distinct species and should be placed in Section Gyantsensis of Hippophae , although it has been suggested that sspp. litangensis and goniocarpa are the result of hybridization between H. rhamnoides ssp. sinensis and H. neurocarpa ssp. neurocarpa , and H. rhamnoides ssp. yunnanensis and H. neurocarpa ssp. stellatopilosa , respectively. The type subspecies of H. goniocarpa is distributed in Songpan and Hongyuan Counties of Sichuan Province and Qilian County of Qinghai Province, at 3500–3750 m, whereas ssp. litangensis is found only in Jiawa, Litang County, Sichuan Province at c . 3700 m. A key including the four taxa of sect. Gyantsensis is provided.  © 2003 The Linnean Society of London, Botanical Journal of the Linnean Society , 2003, 142 , 425−430.     

On phylogeny of Hippophae (Elaeagnaceae)

A cladistic analysis of the genus Hippophae (Elaeagnaceae) was undertaken. based on 37 characters. The five species of the genera Shepherdia and Elaeagnus were included in the analysis as the outgroup taxa. The operational taxonomic units of Hippophae were the species H. gyantsensis, H. neurocarpa, Hsalicifolia and H. tibetana plus eight subspecies of H. rhamnoides . The analysis revealed 117 or 14 equally parsimonious trees depending on whether the multistate characters were treated as ordered whenever possible, or all characters were treated as unordered. The results are not directly in accordance with any of the formerly proposed taxonomies. After successive weighting only two trees were retained both with ordered and unordered characters and the combinable component (semistrict) consensus trees give support to recognition of the two species in the genus, H. rhamnoides and Hsalicifolia . Three new combinations H. rhamnoides ssp. neurocarpa, H. salicifolia ssp. sinensis and H. salicifolia ssp. yunnanensis (Rousi) Hyvönen are proposed.     

Karyotype Analysis of Hippophae L. in China

The present paper reports karyotypes in 4 species and 5 subspecies of Hippophae L. in China. It is found that all of the species and subspecies are diploid, with 2n=24, their complements are made of m and sm chromosomes and of them only H. thibetana has a pair of satellites. All of these karyotypes are symmetrical and primitive. It can be simplied as follows: Hippophae neurocarpa 2n = 2x = 24 = 18m+6sm, H. thibetana 2n = 2x = 24 = 14m (2sat)+ 8sm, H. rhamnoides L. ssp. gyantsensis 2n=2x=24= 18m+ 6sm, H. salicifolia 2n = 2x = 24 = 10m + 14sm, H. rhamnoides L. ssp. sinensis 2n=2x= 24 = 18m + 6sm, H. rhamnoides L. ssp. turkestanica 2n = 2x = 24 = 20m + 4sm; Hi. rhamnoides L. ssp. yunnanensis 2n = 2x = 24 = 14 + 10sm, H. rhamnoides L. ssp. mongolica 2n = 2x = 24 = 16m + 8sm.     

青藏高原东北部及其邻近地区无苞香蒲的谱系地理学

第四纪冰期气候的反复变化对青藏高原及邻近地区植物的种群地理分布及种群遗传结构产生了巨大的影响。本研究对青藏高原东北部及其邻近地区无苞香蒲(Typha laxmannii)的15个种群148个个体的叶绿体rpl32-trnL间隔区和核基因(植物螯合肽合成酶, PS)进行测序, 共发现2个叶绿体单倍型和8个核基因单倍型。所有的单倍型被共享, 高原种群没有特有的单倍型。邻近地区种群的叶绿体遗传多样性和核基因遗传多样性分别是高原种群的4倍和2倍。高原种群的遗传分化水平明显高于邻近地区种群, 其中高原种群的遗传分化主要存在于东部种群与西部种群之间。研究结果表明, 冰期后从多个避难所回迁至高原台面和由此产生的奠基者效应造成了无苞香蒲在青藏高原东北及邻近地区目前的遗传多样性和基因谱系地理分布格局。     

A new species of Aethionema (Brassicaceae) from the Bulgarian flora

Aethionema rhodopaeum D. Pavlova is described as a new species from the eastern Rhodope Mountains. The plant was found growing only on serpentines, in two localities, at an altitude of approximately 400 m. The localities are typical open habitats with sparsely colonized debris. The plant communities, composed mainly of xerophytes with a mosaic distribution, contain a large number of rare and endemic species for the Bulgarian flora. The new species belongs to the Aethionema saxatile group and is quite close to the species A. saxatile (L.) R. Br., in particular to ssp. creticum and ssp. graecum . The following diagnostic features are given for the new species: inner filament length always greater than half the petal length, lack of teeth of the filaments, longer [2–3(3.5) mm] style than that of A. saxatile subspecies, and dark purple petals. All leaves are broadly elliptical to suborbicular, obtuse, and fleshy. The chromosome number of the new species is 2 n  = 24. The differences between the new species and related taxa are also discussed.  © 2007 The Linnean Society of London, Botanical Journal of the Linnean Society , 2007, 155 , 533–540.     

Cryptic lineages and Pleistocene population expansion in a Brazilian Cerrado frog

Diversification of South American species endemic to open habitats has been attributed to both Tertiary events and Pleistocene climatic fluctuations. Nonetheless, phylogeographical studies of taxa in these regions are few, precluding generalizations about the timing and processes leading to differentiation and speciation. We inferred population structure of Hypsiboas albopunctatus, a frog widely distributed in the Brazilian Cerrado. Three geographically distinct lineages were recovered in our phylogeny. The Chapada dos Guimarães (CG) clade was the first to diverge from other populations and contains multiple haplotypes from a single population in western Cerrado, probably representing a cryptic species. The southeast clade (SE) includes populations along the southeastern limit of the range within the historical distribution of the Brazilian Atlantic forest. Finally, the Central Cerrado (CC) group includes haplotypes from the interior of Brazil that are paraphyletic relative to the SE clade. Analyses of historical demography indicate significant population expansion in the CC and SE populations, likely associated with colonization of newly formed open habitats. The divergence of populations in the CG clade occurred in the late Miocene, concordant with the uplift of the central Brazilian plateau. Divergence of the SE clade from the CC occurred during the mid‐Pleistocene. Thus, both Tertiary geological events and Pleistocene climatic fluctuations promoted divergences among lineages. Our study reveals a complex history of diversification in the Cerrado, a morphoclimatic domain highly threatened because of anthropogenic habitat alteration. We identified surprisingly deep divergences in a widely distributed frog, indicating that the Cerrado is not a barrier‐free habitat and that its diversity is likely underestimated.     

Molecular evidence for double maternal origins of the diploid hybrid Hippophae goniocarpa (Elaeagnaceae)

Homoploid hybrid plant species are rare, and the mechanisms of their speciation are largely unknown, especially for homoploid hybrid tree species. Two contrasting hypotheses have been proposed to explain the origin of Hippophae goniocarpa: (1) it is a diploid hybrid originating from H. rhamnoides ssp. sinensis × H. neurocarpa ssp. neurocarpa, and (2) it originated via marginal differentiation from H. rhamnoides ssp. sinensis. Regardless of which of these hypotheses is true (if either), previous studies have suggested that H. rhamnoides ssp. sinensis is the only maternal donor for this hybrid species. In this study, we aim to elucidate the maternal composition of H. goniocarpa and to test the two hypotheses. For this purpose, we sequenced the maternal chloroplast DNA trnL‐F region of 75 individuals representing H. goniocarpa, H. rhamnoides ssp. sinensis, and H. neurocarpa ssp. neurocarpa in two co‐occurring sites of the taxa. Seven haplotypes were identified from three taxonomic units, and their phylogenetic relationships were further constructed by means of maximum parsimony, maximum likelihood, and network analyses. These seven haplotypes clustered into two distinct, highly divergent lineages. Two haplotypes from one lineage were found in H. rhamnoides ssp. sinensis, and five (representing the other lineage) in H. neurocarpa ssp. neurocarpa. Hippophae goniocarpa shared four common haplotypes from both lineages, but the haplotypes detected from the two populations differed to some extent, and in each case were identical to local haplotypes of the putative parental species. Thus, both H. rhamnoides ssp. sinensis and H. neurocarpa ssp. neurocarpa appear to have together contributed to the maternal establishment of H. goniocarpa. These results clearly demonstrate that the marginal origin hypothesis should be rejected, and support the hybrid origin hypothesis. Hippophae goniocarpa exhibits a sympatric distribution with its two parent species, without occupying new niches or displaying complete ecological isolation. However, this species has effectively developed reproductive isolation from its sympatric parent species. Our preliminary results suggest that H. goniocarpa may provide a useful model system for studying diploid hybrid speciation in trees. © 2008 The Linnean Society of London, Botanical Journal of the Linnean Society, 2008, 156 , 111–118.     

基于叶绿体DNA变异研究高山植物偏花报春的种内谱系地理结构

横断山地区是许多温带植物的冰期避难所。为揭示该地区分布物种的亲缘地理结构, 检测了该地区特有、分布相对较为普遍的偏花报春Primula secundiflora的叶绿体trnL-trnF和rps16区序列变异。研究了11个居群109个个体, 一共发现了15种单倍型。只有一种单倍型为3个居群所共有, 其他单倍型都只存在于单个居群内。总的遗传多样性较高(HT=0.966), 但居群内遗传多样性较低(HS=0.178)。尽管种内形态十分一致, 居群间却存在高水平的遗传分化(FST=0.976)。NST (0.982)显著高于GST (0.816), 表明偏花报春在居群间存在明显的亲缘地理结构。单倍型聚成四个主要的分支: 三个分支的单倍型分布在北部, 而另一分支的单倍型分布在南部。四个分支的隔离分布表明该物种在冰期存在多个避难所。未发现在其他温带物种中广泛存在的间冰期或者冰期后物种分布范围的统一扩张现象。但是, 在气候变迁过程中由于居群增长-缩小反复发生, 多数居群的遗传多样性降低。这些推断也被巢式分支分析所证实, 距离隔离而导致的限制性基因流以及异域片断化被认为是该物种现有单倍型分布格局形成的主要原因。这种独特的谱系地理结构主要是由于气候变迁与该地区复杂的地质环境相结合造成的。