基于ISSR分子标记的孑遗濒危植物四合木遗传结构分析

为阐明中国西北干旱区单属种孑遗濒危植物四合木(Tetraena mongolica)种群间的遗传分化和基因流。利用6个不同地理分布的四合木种群作为试验材料,从30条UBC引物中筛选出6条引物,并且对ISSR扩增反应体系和扩增程序进行了合理的优化,6个引物扩增出370个条带,多态性条带占71%。分析结果如下:①Nei’s基因多样性指数(He)为0. 316 8,Shannon’s多态性信息指数(I)为0. 458 6。表明四合木在不同种源间的遗传多样性水平差异较小;②群体多态性位点百分率在70. 00%~83. 33%,Nei’s基因多样性指数范围0. 286 5~0. 350 8,Shannon’s多态性信息指数在0. 423 6~0. 504 9。6个群体间的遗传分化系数Gst为0. 125 3,表明群体间具有一定程度的遗传分化;③6个种群的基因流(Nm)为3. 491 5>1,说明6个种群间存在一定的基因流,可以防止遗传漂变引起的遗传分化;④通过聚类分析,将6个不同地理种群的四合木分为3类,千里沟种群、伊克布拉格种群和巴拉贡种群先聚成第一大类,再与磴口—桃司兔种群聚成第二大类,而四合木自然保护区种群和甘德尔山种群则组成第大三类,这说明距离因素是影响四合木种群间遗传分化的主要原因,但不同生境条件也对四合木种群的遗传分化产生了影响。     

西鄂尔多斯特有种四合木种群遗传多样性及遗传分化研究

利用垂直板聚丙烯酰胺凝胶电泳技术,对西鄂尔多斯高原特有种四合木（Tetraena mogolica）4个种群遗传多样性和遗传分化进行了初步研究。电泳结果表明,四合木在种和种群水平维持较高的遗传多样性,1多态位点百分率P＝60％,等位基因平均数A＝1.6,平均期望杂合度He=0.245。4个种群之间遗传分化很小,基因分化系数GST只有0.052,明不同于其它濒危物种。四合木种较高的遗传多样性和极低的种群间分化,说明不同的种群可能有共同的起源,随机遗传漂变和近交衰退不是影响遗传多样性的主要过程。     

孑遗植物四合木(Tetraena mongolica)的濒危肇因与机制

对我国特有单属种孑遗植物四合木 (Tetraena mongolica Maxim) 的地理分布、生境条件、种群数量动态、空间分布格局、种间关系、种群的生命表、生殖力表、有性生殖、无性繁殖和遗传变异等种群生态学特征及其濒危肇因进行了系统分析.研究结果表明:四合木种群为高群集分布,种群曲线属Leak凸型.年龄结构不合理,其存活曲线接近于Deevey ê型,且将演化为小种群,群落内的生境异质性显著,种群处于不稳定阶段.四合木从开花期到结果期,生殖分配 (RA) 呈下降的趋势,生殖过程中胚胎发生败育、种子向幼苗难以转化使其有性生殖受阻,生活史趋于断裂,是最终导致其濒危的重要内因.分布区城市化、工业化以及过度放牧等原因造成其种群孤立和生境破碎化是物种导致濒危的外因,四合木生态适应性和生境适宜性下降造成遗传多样性逐步丧失.同时提出对我国特有植物四合木进行异地保护的可能性与必然性.     

南岭地区观光木自然和人工迁地保护种群的遗传多样性

迁地保护是珍稀濒危植物保护的重要措施.观光木(Tsoongiodendron odorum)是古老的孑遗树种,被列为国家二级重点保护植物,营建迁地保护林是对其进行保护的重要手段,但已经营建的迁地保护林每个种群目前只保存下来几十株个体.为了评价这些迁地保护林的遗传多样性现状,作者采用ISSR分子标记对南岭地区观光木3个人工迁地保护种群和4个自然种群的遗传多样性进行了比较.结果显示:16条ISSR引物共扩增出362个条带,其中301个为多态条带,多态条带百分比(P)为83.2％,各种群P值为37.9-62.2％,平均为53.1％,表明观光木在物种和种群水平都具有较高的遗传多样性.自然种群总体P值和Shannon信息指数(Ⅰ)(80.9％,0.3629)均高于人工迁地保护种群(66.6％,0.2990),说明人工迁地保护种群遗传多样性较低.种群结构分析表明3个人工迁地保护种群均有可能来源于源口自然种群.4个自然种群间遗传分化系数(GST)为0.2495,表明自然种群间存在显著遗传隔离,基因流受阻和生态环境差异是造成种群遗传分化的主要原因.在今后的迁地保护工作中,我们建议从不同生态地理区收集种质材料,并在不同生态类型区开展迁地保护工作,同时开展观光木种群生态生殖生物学研究.     

四合木和霸王幼苗抗氧化系统对干旱胁迫的响应差异

以室内培养的珍稀濒危植物四合木及其近缘种霸王的幼苗为材料,用不同浓度PEG模拟不同程度的干旱胁迫,探讨2种植物幼苗主要抗氧化酶活性和抗氧化物质含量对干旱胁迫的响应特征。结果表明:(1)随着干旱胁迫强度的增加,四合木和霸王幼苗的干、鲜重及含水量逐渐减少,而MDA含量逐渐升高;四合木抗氧化酶SOD、POD、CAT、AsA-POD和GR活性以及抗氧化剂AsA和GSH含量均呈先升后降的趋势,而霸王AsA-POD和GR活性及抗氧化剂AsA和GSH含量呈上升趋势,SOD、POD和CAT活性呈先升后降的趋势,且霸王出现峰值时PEG浓度均高于四合木。(2)同等强度的PEG胁迫,四合木体内MDA积累量所指示的膜质过氧化程度高于霸王,抗氧化酶活性和抗氧化剂含量均分别高于霸王,而地上部鲜重、地上部干重和含水量却低于霸王。研究表明,霸王幼苗体内各种抗氧化酶活性和抗氧化剂含量增加的阈值要高于四合木,能忍耐的干旱胁迫的阈值大于四合木,耐旱性强于四合木;相同程度的干旱胁迫下霸王的耐受性强于四合木。     

中国特有种四合木种群遗传多样性的RAPD分析

采用随机扩增多态性 DNA(RAPD)技术检测了西鄂尔多斯高原特有种四合木种群 5个斑块的遗传多样性。2 2个扩增引物产生 1 1 6条带 ,Shannon信息指数和 Nei指数对 RAPD数据的分析表明 :四合木种群存在较高的遗传多样性 ,其中千里山斑块的遗传多样性和多态位点比例较高 ,石嘴山斑块的最低。遗传多样性的 86.5 %存在于斑块内 ,斑块间的遗传变异为 1 3 .5 %。遗传距离与地理距离无直接相关关系。这些结果说明 ,遗传多样性反映了四合木种群基因组 DNA存在较高的变异性 ;同时各斑块间存在一定的基因流 ,四合木各斑块可看成是处于同一种群的半隔离状态 (meta-种群 ) ,对四合木应注意保护遗传多样性丰富的 meta-种群。     

濒危植物猪血木人工繁殖幼苗的遗传多样性及对种群复壮的启示

猪血木为山茶科特有的单型属珍稀濒危植物,目前仅在广东省阳春市八甲镇有分布,且种群数量不足200株,为给濒危植物猪血木的种群成功回归自然和种群复壮提供科学依据,采用AFLP分子技术,对7个种源人工繁殖的猪血木幼苗遗传多样性进行研究。结果表明:6对引物共检测到位点数为115个,其中多态位点数为68个,多态位点所占比率为59.13%,观察等位基因数(Na)为1.5826、有效等位基因数(Ne)为1.3813、Nei′s基因多样性(H)为0.2215、Shannon多样性指数(Ⅰ)为0.3280。UPGMA聚类将7个种源的幼苗划分为3支,不同种源间幼苗的遗传距离与种源地理距离存在显著相关性(P<0.05)。说明不同种源人工繁殖猪血木幼苗仍保持较高的遗传多样性。建议采集不同种源种子进行人工繁殖和人工种群构建,促进物种的种群复壮。     

孑遗植物四合木(Tetraena mongolica)的濒危肇因与机制

对我国特有单属种孑遗植物四合木 (Tetraena mongolica Maxim) 的地理分布、生境条件、种群数量动态、空间分布格局、种间关系、种群的生命表、生殖力表、有性生殖、无性繁殖和遗传变异等种群生态学特征及其濒危肇因进行了系统分析。研究结果表明：四合木种群为高群集分布,种群曲线属Leak凸型。年龄结构不合理,其存活曲线接近于Deevey ê型,且将演化为小种群,群落内的生境异质性显著,种群处于不稳定阶段。四合木从开花期到结果期,生殖分配 (RA) 呈下降的趋势,生殖过程中胚胎发生败育、种子向幼苗难以转化使其有性生殖受阻,生活史趋于断裂,是最终导致其濒危的重要内因。分布区城市化、工业化以及过度放牧等原因造成其种群孤立和生境破碎化是物种导致濒危的外因,四合木生态适应性和生境适宜性下降造成遗传多样性逐步丧失。同时提出对我国特有植物四合木进行异地保护的可能性与必然性。     

濒危灌木长叶红砂遗传多样性的RAPD分析

应用RAPD分子标记对濒危灌木长叶红砂(Reaumuria trigyna)种群遗传多样性进行了分析.应用18条随机引物对长叶红砂5个种群的95个个体进行扩增,检测到118个位点,其中多态位点105个.结果表明:长叶红砂种群的多态位点比率(P)为88.98%,显示出长叶红砂种群存在较高的遗传多样性.Shannon多样性指数(0.4966)、Nei基因多样性指数(0.3303)和基因分化系数(Gst=0.1425)的分析结果显示,长叶红砂种群遗传变异大多存在于种群内,种群间的遗传分化占14.25%.聚类分析表明,长叶红砂种群遗传距离与地理距离之间无直接相关关系.遗传多样性水平与物种特性和所处不同群落有关,濒危植物并不一定表现为遗传变异水平的降低.     

濒危植物观光木遗传多样性及遗传结构分析

采用筛选的8条ISSR引物对濒危植物观光木13个野生种群的遗传多样性及遗传结构进行分析,结果显示:物种和种群水平上多态性位点百分率分别为79.67%和46.84%,Shannon表型多样性指数分别为0.3880和0.2192,与木兰科其他近缘植物相比,遗传多样性水平较高;分子方差分析表明,观光木野生种群间遗传分化系数为0.3752,种群间存在显著的遗传距离;STRUCTURE分析和UPGMA聚类表明,参试的13个野生种群可分为3大类群;相关性分析表明,种群间遗传距离与其地理距离呈显著正相关。南昆山、笔架山、弄相山种群的遗传多样性最丰富,建议优先加以保护。     

Genetic diversity of the endangered species Rosa rugosa Thunb. in China and implications for conservation strategies

Rosa rugosa Thunb. is one of the dominant and important shrub species in estuary dunes and shingle beaches of northern China. However, its area of distribution, the number of populations, and the size of each population have decreased rapidly in the past two decades because of habitat degradation and loss. Random amplified polymorphic DNA markers were used to determine the genetic diversity of four remaining large natural populations of R. rugosa and to discuss an effective conservation strategy for this endangered species in China. High genetic variations were detected in R. rugosa populations in China. The mean percentage of polymorphic loci （P%） within four local populations was 57.99%, with the P% of the total population being 75.30%. Mean Shannon＇s information index （H0） was 0.2826, whereas total Ho was 0.3513. The genetic differentiation among populations was 0.1878, which indicates that most genetic diversity occurs within populations. Population Tumenjiang （TMJ） showed the highest genetic diversity （P% = 66.27%; H0 = 0.3117） and contained two exclusive bands. Population Changshandao （CSD） showed higher genetic diversity （P% =59.04%; H0 = 0.3065）. Populations TMJ and CSD contained 95.33% and 99.33%, respectively, of loci with moderate to high frequency （P〉0.05） of the total population. These results indicate that populations TMJ and CSD should be given priority for in situ conservation and regarded as seed or propagule sources for ex situ conservation. The results of the present study also suggest that R. rugosa in China has become endangered as a result of human actions rather than genetic depression of populations; thus, human interference should be absolutely forbidden in R. rugosa habitats.     

Evidence for ancient genetic subdivision among recently fragmented populations of the endangered shrub Grevillea caleyi (Proteaceae)

The genetic effects of population fragmentation cannot be interpreted without understanding the underlying pattern of genetic variation resulting from historic population processes. We used AFLP markers to determine genetic structure and distribution of genetic diversity among populations of an endangered Australian shrub Grevillea caleyi (Proteaceae). Populations that occurred historically on four ridges have new been fragmented to varying degrees, producing some large, relatively pristine populations and very small populations consisting of fewer than 10 adult plants. We found marked population genetic structure (65.9% of genetic variation was among populations) and a significant relationship between genetic and geographic distance (rm=0.564, P=0.004). However, only 14% of overall genetic differentiation was attributable to variation among ridges, compared with 52% among populations within ridges. Moreover, genetic diversity within samples of plants did not vary with either population size or degree of isolation. Thus, the present genetic structure of populations is probably almost entirely the product of historical events. Fine-scale structuring within populations prior to fragmentation may have been caused by limited seed and pollen dispersal, despite a complex suite of (mostly avian) pollinators, and a mixed mating system that allows a large amount of selfing. The combined effects of adult longevity and a soil-stored seed bank may have buffered the recently fragmented populations against the effects of dramatic reductions in numbers of adult plants.     

High genetic diversity vs. low genetic differentiation in Nouelia insignis (Asteraceae), a narrowly distributed and endemic species in China, revealed by ISSR fingerprinting

BACKGROUND AND AIMS: Nouelia insignis Franch., a monotypic genus of the Asteraceae, is an endangered species endemic in Yunnan and Sichuan Provinces of China. Most of the populations are seriously threatened. Some of them are even at the brink of extinction. In this study, the genetic diversity and differentiation between populations of this species were examined in two drainage areas. METHODS: DNA fingerprinting based on inter-simple sequence repeat polymorphisms was employed to detect the genetic variation and population structure in the species. KEY RESULTS: Genetic diversity at species level was high with P=65.05% (percentage of polymorphic loci) and Ht=0.2248 (total genetic diversity). The coefficient of genetic differentiation among populations, Gst, which was estimated by partitioning the total gene diversity, was 0.2529; whereas, the genetic differentiation between populations in the Jinsha and Nanpan drainage areas was unexpectedly low (Gst=0.0702). CONCLUSIONS: Based on the genetic analyses of the DNA fingerprinting, recent habitat fragmentation may not have led to genetic differentiation or the loss of genetic diversity in the rare species. Spatial apportionment of fingerprinting polymorphisms provides a footprint of historical migration across geographical barriers. The high diversity detected in this study holds promise for conservation and restoration efforts to save the endangered species from extinction.     

滇东南硬叶兜兰核心种质区群体遗传结构

本研究选取国内主要种质采集区-滇东南石灰岩地区7个不同干扰居群为研究对象,旨在对其居群内和居群间遗传变异进行比较研究,以期对其保护措施的提出提供理论依据。通过利用SRAP标记对167个体的遗传多样性和遗传结构研究,结果表明：10对SRAP引物共扩增出288个位点,多态位点比率（PPB）达81.25%,香侬指数（I）为0.3709,在种水平上的具有较高遗传多样性;而居群水平上的多态位点比率仅为47.92%, 香侬指数为0.2348, 居群间平均Nei’s遗传距离为0.1268。经分子遗传变异方差分析（AMOVA）表明,有66.27%的遗传变异来源于居群内,居群间变异占总变异33.73%,此结果与遗传分化系数（Gst=0.3568）结果吻合,居群间基因流（Nm）为0.902, 不同地区间硬叶兜兰居群存在较高的遗传分化; 7个居群的UPGMA聚类在遗传相似性系数达0.863,聚为两支;经Mantel检测（r =0.298, P＞0.05）,表明居群间遗传距离与地理距离无显著相关性。居群当前较高的遗传分化与其交配系统有关,其次,外在因素：人为采集、生境破坏和片断化造成居群内遗传多样性的丧失,加剧居群间的遗传分化,再次,遗传漂变也是另一重要影响因素;此外,适应性进化亦可能加剧了居群间的遗传分化,而基因流对遗传分化的影响不大。     

A Statistical and Comparative Analysis of Genetic Detected by Different Molecular Markers

This paper presented a statistical and comparative analysis of common parameters of plant genetic diversity by using relevant data of 314 wild plant species from 235 published articles. The results indicated that the parameters of genetic diversity revealed by RAPD and AFLP are comparable, but all parameters of genetic variation detected by ISSR, allozyme and SSR are incomparable , which are not comparative with those by RAPD and AFLP. The genetic differentiation value G_st based on Hardy-Weinberg equilibrium is obviously lower than the value Φ_st based on AMOVA analysis, which showed that these two parameters are incomparable as well. Furthermore, the statistical and comparative results of genetic diversity of 179 plant species by RAPD and AFLP indicated that at population level: 1) the genetic diversity of gymnosperm is higher than those of both dicotyledon and monocotyledon of angiosperm, but lower genetic differentiation; 2) the genetic diversity of tree is higher than those of shrub and herb, but lower genetic differentiation; 3) the clonal plant has higher genetic diversity than those reproduce sexnally, and 4) the cross-breeding plant has higher genetic diversity than self- breeding plant; 5 ) the widespread plant species has higher genetic diversity than the rare, endangered or endemic species.     

Genetic diversity and structure in fragmented populations of the endangered species Ranunculus cabrerensis (Ranunculaceae): implications for conservation

Ranunculus cabrerensis is an endemic and endangered species of the Northwestern Iberian Peninsula. The molecular markers AFLP and ISSR were used to investigate the genetic diversity and population structure of four populations across its known distribution. Fifteen selective primer combinations of AFLP and seventeen ISSR primer combinations produced a total of 2830 and 103 unambiguously repeatable fragments respectively, of which 97.57 and 81.38% were polymorphic for both markers. The genetic diversity of R. cabrerensis at species level was high (H _E = 0.294 by ISSR and H _E = 0.191 by AFLP) and differentiation between sampled locations was also relatively high (G _ST = 0.316 and 0.158 by ISSR and AFLP analysis respectively) compared to other studies of endangered and rare species using the same techniques. The analysis of molecular variance (AMOVA) indicated that the main genetic variation was within sampled locations (73% by AFLP; 52% by ISSR), even though the variation among locations was also significant. Principal Coordinates, NeighborNet and Bayesian analyses revealed a weak but significant relationship between the genetic structures of different populations in R. cabrerensis, with gene flow acting as a homogenizing force that prevents stronger differentiation of populations. Finally, suggestions for conservation strategies to preserve the genetic resources of this species are outlined.     

濒危植物毛柄小勾儿茶片断化居群的遗传多样性

采用扩增片段长度多态性(AFLP)标记对我国特有的濒危植物毛柄小勾儿茶(Berchemiella wilsonii var. pubipetiolata)现存于浙江和安徽的4个片断化居群中的89株个体进行了遗传多样性和遗传结构的研究。结果表明,与其它木本濒危植物相比,毛柄小勾儿茶具有与它们相当的遗传多样性,8对选择扩增引物共扩增出122条清晰的条带,居群的平均多态位点百分率为P_p=26.4%,其中马家河居群最高(29.5%)而湍口居群最低(23.8%),居群的平均基因多样度为H_ep=0.162 8(0.140 5~0.172 4);而在物种水平上的遗传多样性为P_s=36.9%, H_es=0.202 4。居群间的遗传分化系数F_ST=0.193 9,表明居群间有显著的遗传分化,进一步利用AMOVA软件对遗传变异进行等级剖分发现:24.88%的遗传变异存在于地理宗间(浙江地理宗和安徽地理宗),14.71%的遗传变异存在于居群间,60.42%存在于居群内。该研究结果表明,由于人为干扰引起的生境片断化和居群减小导致了毛柄小勾儿茶居群的遗传多样性丧失和遗传分化,并对毛柄小勾儿茶的生存造成潜在威胁。该文还就保育策略进行了讨论。     

岛屿植物舟山新木姜子居群遗传多样性的RAPD分析

基于随机扩增多态 DNA(RAPD)方法分析了舟山群岛濒危植物舟山新木姜子 (N eolitsea sericea) 6个居群的遗传多样性及分化程度。 10条随机引物扩增出 84个可分析位点 ,多态位点百分比 (PPL)为 3 8.10 %。经 POPOGENE分析发现 ,舟山新木姜子居群平均水平的多态位点百分比 (PPL )为 2 3 .18% ,Nei' s基因多样度 (HE)为 0 .0 793 ,Shannon信息指数 (H )为 0 .12 0 1,与其它岛屿植物比较具有中等偏低水平的遗传多样性 ;岛屿各居群间遗传分化程度较高 (Gst=0 .3 646) ;地理距离与遗传距离之间具有显著相关性 (r=0 .7697,P=96.62 % ) ,岛屿隔离效应是导致居群间遗传分化的重要因素。结合居群遗传多样性及UPGMA聚类分析 ,推测普陀山岛舟山新木姜子部分个体可能为大猫岛迁入的后裔 ,而朱家尖岛舟山新木姜子则由人为移植自普陀山岛。基于舟山新木姜子的物种保护及资源利用 ,建议加强现有自然居群的就地保护 ,促进居群自然更新 ;建立种质资源库 ,收集不同岛屿的种源进行混合繁殖 ,促进基因交流 ;选育优良品系用于海岛植被恢复及园林观赏     

Low genetic diversity and high genetic differentiation in the critically endangered Omphalogramma souliei (Primulaceae):implications for its conservation

Omphalogramma souliei Franch. Is an endangered perennial herb only distributed in alpine areas of SW China. ISSR markers were applied to determine the genetic variation and genetic structure of 60 individuals of three populations of O. Souliei in NW Yunnan, China. The genetic diversity at the species level is low with P= 42.5% (percentage of polymorphic bands) and Hsp=0.1762 (total genetic diversity). However, a high level of genetic differentiation among populations was detected based on different measures (Nei's genetic diversity analysis: Gst=0.6038; AMOVA analysis: Fst=0.6797). Low level of genetic diversity within populations and significant genetic differentiation among populations might be due to the mixed mating system in which xenog-amy predominated and autogamy played an assistant role in O. Souliei. The genetic drift due to small population size and limited current gene flow also resulted in significant genetic differentiation. The assessment of genetic variation and differentiation of the endangered species provides important information for conservation on a genetic basis. Conservation strategies for this rare endemic species are proposed.