中华水韭遗传多样性的RAPD分析

采用RAPD方法对珍稀濒危植物中华水韭(Isoetes sinensis)4个自然居群的48个样品进行了DNA多态性分析。从60个随机引物中筛选出14个有效引物,共产生124条DNA片段,其中72条为多态性条带,总的多态位点百分率(PPB)为58．06％。各居群间多态位点百分率差异显著(0．81％-12．90％)。AMOVA分析结果表明,4个居群间基因分化系数Фst=0．5894,即遗传变异中有相当一部分来源于群体间(58．94％)。日益缩小的种群规模而导致的居群内近交和遗传漂变的发生以及居群间有限的基因交流可能是中华水韭目前遗传结构的主要成因。鉴于目前中华水韭居群内个体数偏少、遗传多样性较低的现状,建议对其进行就地保护并保护尽可能多的生境,对不同自然居群内的个体进行植株相互移栽和育苗移栽,以提高不同居群间的基因交流,尽可能地保护中华水韭的遗传多样性。     

基于核基因LEAFY的中国珍稀濒危植物中华水韭的遗传多样性分析

利用核基因LEAFY第二个内含子片段对中国现存中华水韭（Isoetes sinensis Palmer）的遗传多样性进行分析,探讨了中华水韭自然居群的遗传多样性结构及其形成机制。结果显示：现存中华水韭7个自然居群共105个样本中存在78个单倍型,单倍型多样性（H_d）为0.989,核苷酸多样性（π）为0.021,遗传差异主要存在于居群内（72%）,且存在较高的基因流（N_m=0.59）。同时,居群遗传学分析结果发现中华水韭居群不存在明显的谱系地理格局（G_ST>N_ST）;Mantel检验中Rxy值为-0.286,P（rxy-rand≥rxy-data）值为0.370,表明居群遗传距离和地理距离之间没有明显相关性;UPGMA聚类分析显示处于海拔较高位置的2个居群与其它5个居群遗传关系较远;中性检验（Taijima's D、Fu & Li's D^*和F^*）检测结果均为负值,基于稳定模型的失配分布检测显示为多峰。根据中华水韭居群的地理位置,推测中华水韭的遗传结构可能与水系、海拔分布及其杂交后代多倍化的物种形成过程相关。     

珍稀濒危植物阜康阿魏的遗传多样性及遗传结构

明确珍稀濒危小种群阜康阿魏(Ferula fukanensis)的遗传多样性和遗传结构,是对其制定有效的保护和管理策略的基础和前提。本研究基于10对多态性好且可以稳定扩增的SSR引物对来源于3个居群87个珍稀濒危植物阜康阿魏的遗传多样性和遗传结构进行分析。结果显示：小种群的阜康阿魏具有相对较高的遗传多样性,居群间Nei’s基因多样性指数(h_S)为0.514,总的Nei’s基因多样性指数(h_T)为0.516,观测杂合度(H_o)为0.881,期望杂合度(H_e)为0.512,香农信息指数(I)为0.836,多态位点百分率(P_PB)为100%,遗传分化程度较低(F_st=0.007),95.9%的变异发生在居群内,遗传距离与地理距离无显著相关性,66.7%的居群遭遇了遗传瓶颈。结果表明,阜康阿魏遗传变异丰富,有较高的进化潜力。结合该种野外种群现状,建议建立保护区,开展就地保护,并加强引种和人工繁育等迁地保护措施,辅助阜康阿魏保育。本研究可为阜康阿魏植物资源保护提供理...     

两种濒危水韭植物迁地保护居群的基因流动态及回归重建保育遗传管理策略

采用微卫星分子标记对中华水韭（Isoetessinensis）安徽休宁、浙江建德和东方水韭（I.orientalis）浙江松阳三个孑遗居群的迁地保护居群开展了遗传多样性检测与遗传结构分析。7对多态性微卫星引物在36个迁地保护亚居群的720个样本中共检测到59个等位基因,每位点平均等位基因数（A）为8·43。迁地保护亚居群均维持很高的遗传多样性,多态信息含量（PIC）平均为0·707。迁地保护亚居群间遗传分化较低,遗传分化系数GST仅为0·070,居群间具有较大基因流（Nm=3·59）。单因素方差分析发现水韭孢子或孢子体在沿主要水流方向上的长距离传播能力要强于弱水流方向上的短距离传播能力,水流动态对水韭植物的基因流有重要影响。这与UPGMA聚类分析中迁地保护亚居群按邻近位置或水流相通程度优先聚类的结果相一致,水流所带动的强大基因流导致了不同孑遗居群来源的迁地保护亚居群间的遗传混杂。建议在开展水韭植物的迁地保护或回归自然重建时,对具有地方适应分化或者显著性进化的水韭植物居群应相互隔离而不宜配置在一起,以避免远交衰退的遗传风险。     

濒危植物扇脉杓兰野生居群遗传多样性的AFLP分析

扇脉杓兰(Cypripedium japonicum)是一种珍稀的地生兰。为了探索并制定针对性的保护措施,采用AFLP分子标记技术对现存于浙江省的6个扇脉杓兰天然居群进行了遗传多样性和遗传结构的研究。筛选出的7对引物共扩增出377条清晰条带,多态性比率为20.95%。居群总Nei基因多样性指数为0.0512,其中居群内基因多样性为0.0247,居群平均Shannon多态性信息指数为0.0417,群体间总遗传分化系数为0.5178,基因流为0.4655,表明扇脉杓兰居群的遗传多样性较低,居群间出现一定程度的遗传分化。UPGMA聚类和Mantel检测分析结果表明,居群间的地理位置与遗传距离之间不存在显著相关性(r=0.16,P=0.242)。基于本研究结果并结合扇脉杓兰的生物学特性,初步提出了相应的保育策略。     

濒危植物连香树居群的遗传多样性和遗传分化研究

利用ISSR分子标记技术对濒危植物连香树10个居群的遗传多样性和遗传变异进行了分析,结果表明:连香树物种水平遗传多样性较高,多态位点百分率(PPB)达到69.59%,Nei’s基因多样性指数(H)和Shannon信息指数(I)分别为0.231 3和0.351 4;而在居群水平上,多态位点百分率(PPB)为30.61%,Nei’s基因多样性指数(H)和Shannon信息指数(I)分别为0.115 6和0.173 3。遗传变异分析表明,居群间遗传分化程度高,遗传分化系数(GST)为0.500 3,居群间基因流Nm为0.527 3。Mantel检测,居群间的遗传距离和地理距离之间不存在显著的相关性。生境的片断化使居群间的基因流受阻,可能是导致居群间高遗传分化和居群水平低遗传多样性的主要原因。     

中华水韭残存居群的数量性状分化和地方适应性及其对保育遗传复壮策略的提示

 研究残存居群的数量性状分化及其地方适应性有助于了解不同居群对环境的适应性并制定相应的保育策略。本研究采用同园实验,利用随机区 组设计,对中华水韭(Isoetes s inensis)3个居群的9种优势基因型的数量性状进行巢式方差分析,并采用Bayesian方法计算等位酶（F_ST）和 数量性状（Q_ST）的居群分化值。结果表明,在测量的14个数量性状中,有10个性状在居群间有显著性差异,仅有3个性状在居群内有显著性差 异;多重比较表明其中5个性状的平均值均以松阳居群最高,休宁居群最低;建德居群的大孢子囊的性状和植株高度的平均值最高,休宁居群最 低;推测这可能是与奠基者效应、物种间竞争及中华水韭在自然生境下形成的营养生长和生殖生长之间的权衡有关。对居群数量性状分化的QST 值和等位酶分化的FST值分析比较发现,在假设为自交系时有8个性状的Q_ST值均大于F_ST值,表明存在明显的地方适应性,居群间个体的混合存 在潜在的远交衰退的风险,所以不宜采用居群间相互移植个体的方法来进行中华水韭居群的遗传复壮。对休宁和松阳两个居群的保育应采用提 高居群内基因流和改善生境环境的方法,促进居群内的遗传复壮;对建德居群应尽量减少人为干扰,宜建立特定生境的保护小区。     

濒危羊踯躅自然居群的遗传多样性和遗传结构分析

利用12对微卫星(SSR)分子标记对涉及6省8个羊踯躅自然居群193个体的遗传多样性和遗传结构进行分析,探讨羊踯躅遗传多样性水平与分化程度的可能原因,为羊踯躅的保护提供科学依据。结果显示:(1)12对SSR引物共扩出260个等位基因,每个位点的平均等位基因数为21.667,平均有效等位基因数(Ne)为5.425,平均多态信息含量(PIC)为0.900;物种水平的Shannon多样性指数(I)为1.768,基因多样性指数(H)为0.777。(2)江西金溪(JX)的羊踯躅居群的遗传变异最丰富,福建政和(ZH)的遗传多样性水平最低。(3)基于无限等位基因模型(IAM)的遗传分化系数(F_(st))为0.142,基因流(N_m)为1.522;AMOVA分析显示羊踯躅居群内变异(87.71%)大于居群间变异(12.29%)。(4)遗传距离法聚类NJ分析和Structure分析均表明,8个自然群体被分为三大类群;Mantel检测发现,羊踯躅遗传距离与地理距离无显著相关性。研究表明,羊踯躅最好以就地保护为主,应优先保护江西金溪(JX)居群,同时增加对福建政和(ZH)和湖北京山(JS)居群的保护权重。讨论了羊踯躅较高遗传多样性和中等程度分化的可能原因。     

濒危物种山红树居群遗传结构的RAPD分析

利用RAPD分子标记检测了云南省3个山红树居群的遗传多样性和居群遗传结构。10个引物共检测到54个位点, 其中多态位点11个, 占20 37%。与其他的濒危物种相比, 山红树居群内的遗传多样性很低, 居群间的遗传分化很大(78 65%)。大量经济植物的种植加上人为的破坏, 使山红树的生境遭到严重破坏, 数量大为减少, 可能导致了山红树遗传多样性的丧失、居群间较高的遗传分化。基于以上结果, 探讨了山红树进一步的迁地保护措施。     

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。     

Genetic consequence of restricted habitat and population decline in endangered Isoetes sinensis (Isoetaceae)

BACKGROUND AND AIMS: Isoetes sinensis (Isoeteaceae) is a critically endangered aquatic quillwort in eastern China. Rapid decline of extant population size and local population extinction have occurred in recent years and have raised great concerns among conservationists. METHODS: Amplified fragment length polymorphisms (AFLPs) were used to investigate the genetic variation and population structure of seven extant populations of the species. KEY RESULTS: Eight primer combinations produced a total of 343 unambiguous bands of which 210 (61.2 %) were polymorphic. Isoetes sinensis exhibited a high level of intra-population genetic diversity (H(E) = 0.118; hs = 0.147; I = 0.192; P = 35.2 %). The genetic variation within each of the populations was not positively correlated with their size, suggesting recent population decline, which is well in accordance with field data of demographic surveys. Moreover, a high degree of genetic differentiation (F(ST) = 0.535; G(ST) = 0.608; theta(B) = 0.607) was detected among populations and no correlation was found between geographical and genetic distance, suggesting that populations were in disequilibrium of migration-drift. Genetic drift played a more important role than gene flow in the current population genetic structure of I. sinensis because migration of I. sinensis is predominantly water-mediated and habitat range was highly influenced by environment changes. CONCLUSIONS: Genetic information obtained in the present study provides useful baseline data for formulating conservation strategies. Conservation management, including both reinforcement for in situ populations and ex situ conservation programmes should be carefully designed to avoid the potential risk of outbreeding depression by admixture of individuals from different regions. However, translocation within the same regional population should be considered as a measure of genetic enhancement to rehabilitate local populations. An ex situ conservation strategy for conserving all extant populations to maximize genomic representation of the species is also recommended.     

极濒危植物中华水韭屯溪居群调查研究报告

中华水韭（Isoetes sinensisPalmer）为水韭科（Isoetaceae）水韭属（Isoetes）多年生沼泽植物,由于人为干扰日益严重,现分布范围急剧缩小,种群数量稀少,处于濒危状态,已被列为国家一级重点保护野生植物。为科学合理的保护和抢救这一珍稀濒危植物资源提供理论依据,为此对中华水韭屯溪居群的生长环境、面积、株丛数量、水体的pH值、伴生植物种类和生存现状等的调查研究。中华水韭屯溪居群面积500m^2,株丛密度较大,水体pH值为6.55,伴生植物有40余种,其中10种有较高优势度,生存面临多重威胁,保护迫在眉睫。     

Genetic diversity in Isoetes yunguiensis, a rare and endangered endemic fern in China

Isoetes yunguiensis is an endangered and endemic fern in China.Field survey indicated that only one population and no more than 50 individuals occur in the wild.The genetic variation of 46 individuals from the population remaining at Pingha (Guizhou Province,China)was assessed by Random Amplified Polymorphic DNA (RAPD)fingerprinting.Twelve primers were screened from sixty ten-bp arbitrary primers,and a total of 95 DNA fragments were scored.Of these,62.1%were polymorphic loci,which indicated that high level genetic variation existed in the natural population.The accumulation of genetic variation in the history of the taxon and the apparent minimal reduction effect on genetic diversity following destruction of habitat might be responsible for the high level genetic diversity presently remaining in the I.yunguiensis population.However,with the continuing decrease of population size,the genetic diversity will gradually be lost.We suggest that the materials from the extant population should be used for re-establishment of the populations.     

珍稀濒危蕨类植物中华水韭染色体数目的研究

蕨类植物中华水韭 Isoetes sinensis Palmer,隶属于拟蕨类水韭亚门水韭目水韭科水韭属。该亚门现仅存单目单科 2属 [1] ,形态特征独特 ,系统位置也原始而孤立 [2 ] ,其染色体资料对探讨单目单科水韭属植物的系统演化进而对蕨类植物系统演化均极具意义。水韭属植物全世界现存约 1 30种[1] ,主要分布于北半球 ,我国仅有 4种 ,且数量十分稀少 ,全部被列为国家一级重点保护对象 ,其中 ,中华水韭是中国境内发现的第一种水韭 ,现仅零星存在于江苏、安徽、浙江、江西的少数湿地 [3 ,4] ,已处于极度濒危状态 [4] 。目前有关水韭属植物染色体资料均…     

珍稀濒危蕨类植物东方水韭的遗传多样性

采用ISSR分子标记对珍稀濒危蕨类植物东方水韭和中华水韭4个自然居群共72个样品进行了DNA多态性分析。从65个随机引物中筛选出11个有效引物,共产生98条DNA片段,其中68条为多态性条带,多态位点百分率(PPL)为66.33%。东方水韭两个居群的多态位点百分比率(PPL)较低(8.16%和7.14%)。中华水韭两个居群的PPL也较低(9.18%和23.47%)。中华水韭物种水平上的PPL(51.02%)高于东方水韭(9.18%)。AMO-VA分析结果表明,东方水韭遗传变异中主要存在于居群内(94.74%),而中华水韭绝大部分的遗传变异却存在于居群间(86.71%)。东方水韭和中华水韭个体间UPGMA聚类结果表明:同一物种的个体完全能聚在一起,中华水韭的两个居群也能明显分开,而东方水韭两居群的个体并不能完全聚在一起。探讨了可能造成上述居群遗传结构模式的主要因素,同时提出今后工作中需重点解决的问题。     

Genetic diversity of SSR markers in wild populations of Tapiscia sinensis,an endangered tree species

Tapiscia sinensis is a Tertiary relict and endangered tree species with unique scientific research value and great economic value. In this study, we assessed the genetic diversity of five wild T. sinensis populations from different geographical regions using 10 polymorphic simple sequence repeat (SSR) markers. Our results reveal that the natural populations of T. sinensis have rich genetic diversity (PPL = 100%, He = 0.6904, I = 1.4368), with Shannon's index indicating that the T. sinensis populations are at a relatively stable stage. Of the genetic relationships among populations, the distance between the Hunan Yanling (YL) and Guizhou Xifeng (XF) populations is the smallest (0.4829); the genetic distance between the Shaanxi Ningshan (NS) and the Guizhou Xifeng (XF) populations is the largest (0.9821). A Mantel test shows that there is no correlation among the populations between geographic distance and genetic distance. AMOVA suggest that 33.3% of the genetic variation arose among the populations, while 66.7% of the variation arose within them. The moderate gene flow among populations (Nm = 0.7274) is not sufficient to counteract genetic drift within the populations and result in significant differentiation (Fst = 0.2987). Our results will benefit the conservation and exploitation of T. sinensis and provide a theoretical basis for further study of the evolution and phylogeography of the species.     

Genetic diversity and population structure of endangered Isoetes coreana in South Korea based on RAPD analysis

Isoetes coreana Chung and Choi is on the list of critically endangered species in South Korea. Using randomly amplified polymorphic DNA (RAPD) markers, we investigated the genetic diversity within and between seven local populations of I. coreana. Ten RAPD primers produced a total of 94 bands, of which 59 (62.8%) were polymorphic. A low level of genetic diversity was recognized within the populations of I. coreana: polymorphic loci (P), with values ranging from 3.4% to 33.9%, and a mean value of 15.5% being observed. Analysis of molecular variance (AMOVA) showed that genetic diversity was greater among populations (81.6%) than within populations (19.7%) or among the three regions included in this study (Han River, Youngsan River, and Nakdong River). In addition, a high degree of genetic differentiation (θ^B = 0.742) was detected among the populations. These results indicate that genetic differentiation has occurred very rapidly. However, the rate of gene flow between populations was found to be as low as 0.059, irrespective of the genetic and geographical distances between the populations, which indicates that genetic drift must have played an important role in forming the present populations of I. coreana. Because a reduction of genetic diversity as a result of genetic drift is undesirable, increasing the gene flow between populations of Korean quillwort I. coreana should be considered as a conservation strategy.