蒙古冰草外稃微形态特征的变异式样

采用电镜扫描技术对蒙古冰草（Agropyron mongolicum Keng)6个天然居群和2个栽培品种的外稃进行了观察分析。结果表明,外稃的微形态特征存在有14种变异类型,具有丰富的多态性;从这些变异的分布格局来看,主要存在于居群内的个体间,居群间的分化并不明显,反映出了居群内变异大于居群间变异的特点。     

蒙古冰草表型数量性状的变异与生境间的相关性

采用多因变量线性模型方差、变异系数、主成分分析及UPGMA聚类分析的数量统计方法,对来自内蒙古中东部地区的6个天然居群和2个栽培品种(品系)的花序10个数量性状进行了分析。结果表明,蒙古冰草在花序各部的表型性状上存在有居群内及居群间的差异,同时,天然居群的变异程度大于栽培品种,而且居群间的分化与生态环境因子有着密切的相关。     

青藏高原东部矮生嵩草遗传多样性的RAPD研究

基于随机扩增多态DNA（RAPD）方法分析了青藏高原东部矮生嵩草（Kobresia humilis）8个居群的遗传多样性及分化程度。14条随机引物共扩增出194个位点数,其中多态性片段168个。研究表明,矮生嵩草无论是在物种水平（多态条带比率PPB（％）为86．60％,Nei’s基因多样性（h）为0．2622,Shannon’s信息指数（I）为0．3983）,还是在居群水平（PPB=62．65％,h=0．2126．I=0．3185）,都具有较高的遗传多样性,居群的遗传多样性大小与生境有相关性。而且,用SPSS分析得出,8个居群的遗传多样性大小与海拔没有明显相关性。用AMOVA数据表明矮生嵩草的遗传变异主要分布在居群内（83．04％）,居群间变异较小（16．96％）。遗传分化指数Gst也显示了相似的结果（0．1891）。从矮生嵩草8个居群的遗传距离和聚类分析发现,以及用NTSYS对矮生嵩草8个居群的的遗传距离矩阵与地理距离矩阵间的关系进行Mantel检测,其结果表明各居群间的遗传距离与地理距离之间没有明显相关性（r=0．37779,P=0．9718〉0．05）。     

广东高州7个普通野生稻居群遗传结构的SSR分析

利用32对SSR引物对来自全部7个自然居群的217份广东高州普通野生稻（简称＂高野＂）材料进行遗传结构、多样性和遗传聚类分析。结果表明,高野各居群因遗传结构存在差异而相对独立,但各居群之间由于存在基因渗透又具有一定的相似性。高野总体多样性指数（Ht）为0.65,居群内的多样性（HS=0.431）略大于居群间的多样性（DS=0.392）,二者差异并不显著。居群间的遗传分化系数（GST）为0.611,说明高野群体的遗传差异是由居群内和居群间的遗传分化共同作用的结果。其中A、B、E居群间,D、F、G居群间遗传相似性较高,C居群与其它居群之间存在较大差异。根据7个居群的遗传结构,结合其地理分布状况,认为遗传多样性最大的B和E居群以及遗传分化最小的C居群应作为重点对象进行保护。     

凉水、丰林国家自然保护区红松居群遗传多样性的RAPD分析

采用了RAPD分子标记技术分析了凉水和丰林国家自然保护区红松(Pinus koraiensis)居群的遗传多样性.10个随机引物检测到61个可重复的位点,多态位点比率为0.693 5.Nei指数统计结果表明,红松的遗传多样性凉水居群(0.263 4)大于丰林居群(0.260 7).对比分析了这两个天然红松居群的遗传多样性变化,红松种内的遗传变异主要存在于居群内,居群间存在一定的遗传分化.     

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。     

基于ISSR标记的扁玉螺(Neverita didyma)自然居群遗传结构

利用ISSR分子标记技术,对采自大连（DL）、烟台（YT）及青岛（QD）近海的扁玉螺3个自然居群的遗传结构和遗传多样性进行了分析。用13个引物对90只个体进行了PCR扩增,共检测到161个位点,3个居群的多态位点比例为74.53%～85.09%,各居群遗传多样性水平的高低依次为YT〉QD〉DL。扁玉螺在物种水平上的Nei’s基因多样性指数和Shannon’s信息指数分别为0.3395和0.5113,在居群水平上分别为0.2811和0.4189,显示出扁玉螺有着较高的遗传多样性。AMOVA分子变异分析表明,扁玉螺的遗传变异有27.16%发生在居群间,72.84%发生在居群内,居群内的遗传变异大于居群间的遗传变异。扁玉螺3个居群间的遗传分化系数（Gst）为0.1720,基因流（Nm）为2.4063,Nei’s遗传距离平均值为0.1228,表明扁玉螺居群间虽然存在着一定程度的遗传分化,但仍属于种内正常分化的范畴。上述结果为保护和利用扁玉螺资源提供了科学依据。     

刚毛柽柳天然居群遗传多样性初探

柽柳是荒漠地区主要的灌木资源树种。以刚毛柽柳为代表,运用RAPD技术分析了广布于新疆境内9个刚毛柽柳(Tamarix hispida L．)天然居群的遗传多样性及居群间的遗传分化。10条随机引物检测到157个可重复的位点,其中多态位点155个,占总位点数的98．7％。由Shannon表型多样性指数和Nei基因多样性指数估计居群间遗传分化百分比分别为62．5％和55．30％,表明刚毛柽柳种内的遗传变异主要存在于居群间。根据以上结果,我们认为新疆境内刚毛柽柳天然居群的遗传多样性很丰富,居群间分化程度较高;繁育系统属于一种自交和不完全异交混合的交配类型;形成并维持其分布格局的主要因素是基因流的隔离。     

大别山山核桃天然群体遗传结构的初步分析

利用RAPD分子标记技术检测了大别山山核桃3个天然居群的遗传多样性和遗传结构。20条10 bp随机引物共检测到238个扩增位点,其中多态性位点162个,多态位点百分率(PPB)为68.1%。居群水平Shannon’s多态性信息指数(I)介于0.2651~0.2801之间;居群水平Ne i’s基因多样性指数(H)介于0.1789~0.1890之间。遗传变异计算显示大别山山核桃居群间基因分化系数(Gst)为0.4063,分子方差分析(AMOVA)表明居群间基因分化水平为0.4177,居群间基因流(Nm)为0.7306,说明大别山山核桃大部分变异存在于居群内,居群间基因交流相对较少。这一结果符合大别山山核桃风媒、异交的繁育系统特点,但其居群间基因分化程度明显高于异交植物的平均水平(Gst=0.1930)。地理隔离、居群内近交及居群间基因流受阻可能是形成目前大别山山核桃天然群体遗传结构的主要因素。     

二色胡枝子种子储藏蛋白多样性研究

采用SD-PAGE方法对二色胡枝子14个居群147个个体单粒种子盐溶蛋白进行了电泳检测,共检测到28个蛋白单体,其中多态性单体23个,多态百分率为82．14％,各居群内多态百分率平均为33％。各居群间的遗传分化系数（Gst）为0．4669。居群间基因流（Nm）为0．5709。种群内的基因多样性占总群体的53．3％,表明二色胡枝子种群具有丰富的遗传多样性,居群内变异是二色胡枝子遗传多样性的主要来源。聚类分析结果将14个二色胡枝子居群分为3类,居群间地理距离和遗传距离相关性不显著。     

中国石榴栽培群体遗传多样性的荧光AFLP分析

以中国山东、安徽、陕西、河南、云南和新疆6个栽培石榴群体的85个品种类型为试材,利用荧光标记AFLP对中国石榴群体遗传多样性进行了研究。结果表明：8对引物组合在种级水平扩增的多态性位点数范围从135～185个不等,平均为158.25个,多态位点百分比范围为62.5%～86.11%,平均为73.26%,说明中国石榴品种遗传多样性较为丰富;石榴品种种级水平遗传多样性大于群体水平,6个群体的遗传多样性依次为河南群体〉新疆群体〉陕西群体〉安徽群体〉山东群体〉云南群体,并且具有显著性差异;群体间的遗传分化系数GST为0.2018,说明石榴遗传变异主要存在群体内,群体间的遗传变异占总变异的20.18%,根据基因分化系数,测得的基因流Nm为1.9027,说明中国石榴群体间存在适当的基因交流;UPGMA聚类分析结果表明,同一群体的大部分品种都聚在一起,但同时存在部分基因交流。所有遗传参数表明,中国石榴栽培品种遗传多样性较为丰富,其中河南群体遗传多样性显著高于其他群体,在中国石榴品种选育中具有更为广阔的应用前景。     

水杉栽培居群的遗传多样性研究

利用RAPD技术,对9个水杉(Metasequoiaglyptostroboides)栽培居群的遗传多样性进行了初步研究。用10bp的随机引物16条,共扩增出103个位点,其中37个为多态位点,占35.92%。各居群的多态位点百分率在16.50%~33.01%之间。POPGENEversion1.31软件处理结果如下:居群的Shannon’s信息指数为0.1930。遗传距离在0.0130~0.0650之间,遗传一致度在0.9370~0.9871之间。AMOVA分析结果显示遗传变异主要存在于居群内,占89.05%,居群之间有一定的分化。上述结果表明水杉栽培居群的遗传多样性略低于自然居群,涵盖了自然居群近80%的遗传多样性。由此可以确认栽培水杉的种源是经过混合的,它们在相当程度上代表了自然居群的遗传多样性水平。采自潜江的9株丛枝水杉(Metasequoiaglyptostroboidesvar.caespitosa)没有扩增出特有位点,将其视为一个居群根据遗传一致度作UPGMA聚类分析时,该居群和湖北的3个居群及南京(NJ)、成都(CD)居群聚在一起;单株聚类时丛枝水杉也没有聚成独立的一支,而是比较分散,因此不支持将丛枝水杉作为水杉的一个变种的分类处理。从亲缘关系上看,丛枝水杉应当归属于湖北潜江蚌湖种子园(BH)和湖北潜江广华(GH)居群,这与其分布现状也是吻合的。     

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.     

内蒙古中东部不同草原地带羊草种群遗传分化

运用 RAPD技术对内蒙古不同草原地带分布的 5个羊草种群 (共 10 0个个体 )的遗传多样性进行分析。 31个随机引物(10 nt)在 5个羊草种群中共检测到 4 96个扩增片断 ,其中多态性片断 4 89个 ,总的多态位点百分率达 98.6 %。利用 Nei指数和Shannon指数估算了 5个种群的遗传多样性 ,并计算种群相似系数和遗传距离运用 UPGMA法进行聚类分析。结果表明 :无论是种群内还是种群间 ,羊草均存在较高的遗传变异 ,大部分的遗传变异存在于种群内 (Nei指数和 Shannon指数估算结果分别为 85 .4 %和 72 .5 % ) ,只有少部分的遗传变异存在于种群间 ;不同种群的遗传多样性存在差异 ,各种群的遗传多样性与其所处的地理位置具有显著的相关性 ;5个种群的平均遗传距离为 0 .5 0 95 ,变异范围为 0 .4 6 84～ 0 .5 4 76 ;聚类分析结果显示地理距离较近的种群遗传距离较小 ,首先聚在一起 ,而地理距离较远的种群遗传距离较大 ,说明羊草种群间的遗传分化与地理距离存在一定相关性 ;但地理距离最近的两个种群并未最先聚集 ,说明羊草种群间的分化还与其生境的异质性有关     

Standing variation boosted by multiple sources of introduction contributes to the success of the introduced species, Lotus corniculatus

Although ecological differences between native and introduced ranges have been considered to drive rapid expansion of invasive species, recent studies suggest that rapid evolutionary responses of invasive species to local environments may also be common. Such expansion across heterogeneous environments by adaptation to local habitats requires genetic variation. In this study, we investigated the source and role of standing variation in successful invasion of heterogeneous abiotic environments in a self-incompatible species, Lotus corniculatus. We compared phenotypic and genetic variation among cultivars, natives, and introduced genotypes, and found substantial genetic variation within both native and introduced populations. Introduced populations possessed genotypes derived from both cultivars and native populations, and had lower population differentiation, indicating multiple sources of introduction and population admixture among the sources in the introduced range. Both cultivars and introduced populations had similarly outperforming phenotypes on average, with increased biomass and earlier flowering compared with native populations, but those phenotypes were within the range of the variation in phenotypes of the native populations. In addition, clinal variation within introduced populations was detected along a climatic gradient. Multiple introductions from different sources, including cultivars, may have contributed to pre-adaptive standing variation in the current introduced populations. We conclude that both introduction of cultivar genotypes and natural selection in local environments contributed to current patterns of genetic and phenotypic variation observed in the introduced populations.     

Diversity distribution and population structure of tea germplasms in China revealed by EST-SSR markers

Tea plant (Camellia sinensis (L.) O. Kuntze) originated from China, where distributed abundant genetic resources. It is of critical importance to well understanding of genetic diversity and population structure for effective collection, conservation, and utilization of tea germplasms. In this study, 96 new polymorphic EST-SSR markers were developed and used to analyze 450 tea accessions collected from 14 tea-producing regions across China. A total of 409 alleles were observed, and the gene diversity (H) and polymorphic information content (PIC) were estimated to be averagely 0.64 and 0.61, respectively, across all the tested samples. The higher level of genetic diversity was observed in original regions like Guangxi, Yunnan, and Guizhou provinces. The allele number, H, and PIC showed decreasing trend when the region was more and more away from origin center of tea plant, which gave us implications on the spreading route of tea plant in China. The clustering of 450 samples both showed a clear separation according to their geographic origin based on either model simulation or genetic distance. The genetic differentiation was further analyzed among five inferred populations represented different eco-geographic regions. The lowest F _st and the closest relationship were revealed between proximal populations, which indicated that gene exchanges occurred frequently between nearby regions than distance ones. The majority of genetic variation resulted from differentiation within population (81.36%) rather than among inferred (13.6%) and regional (5.04%) populations based on analysis of molecular variance. Our study also revealed that the lower diversity and simpler population structure were found in improved cultivars than wild teas and landraces, which indicated that genetic base of developed cultivars became narrow because of long-standing domestication and artificial selection. So more attentions should be focused to conserve and utilize the beneficial genes in wild teas and landraces to broaden genetic variation of new cultivars in future breeding of the tea plant.     

Protein evolution in dynamically managed populations of wheat: adaptive responses to macro-environmental conditions

 Dynamic management of genetic resources aims to conserve genetic variability between different populations evolving in contrasting environments. It is thus of importance to determine whether differences appearing between populations are stochastic or if they come about from adaptation. Two-dimensional electrophoresis (2DE) was used to study genetic differentiation of 11 wheat populations evolving since 1984 in a multi-site network covering the major cultivation area of wheat in France. Gels were scanned and protein-spot intensities were measured through image analysis. As it was not possible to assay each individual, populations were characterized using pooled extracts from several plants. In the first step, two parents among the 16 parental lines involved in the initial wheat composite-cross population were exhaustively studied to identify a set of polymorphic spots against which the entire set of evolved populations could be compared. This analysis confirmed the efficiency of gel image-processing to determine the composition of pooled extracts. Of the 48 spots used to investigate population differentiation, 15 showed significant differences at the P<0.05 level. Populations that evolved independently at the same location showed similar differentiation, even when their cultivation methods were different. These results suggest that natural selection acted strongly on the evolution of the populations, and that responses to selection were determined primarily by macro-environmental conditions. Received: 10 February 1997 / Accepted: 18 April 1997     

Swiss Mattenklee landraces,a distinct and diverse genetic resource of red clover (<Emphasis Type="Italic">Trifolium pratense</Emphasis> L.)

Genetic variability within and among 19 landraces and cultivars of red clover ( Trifolium pratense L.) was investigated by means of amplified fragment length polymorphism (AFLP) analysis in order to assess the potential value of Swiss Mattenklee landraces as genetic resources for plant breeding and the preservation of biodiversity. Populations were classified into three groups according to their origin and agronomic features: Mattenklee landraces (8), Mattenklee cultivars (8) and field clover cultivars (3). Analysis of molecular variance based on 276 polymorphic AFLP markers revealed 80% of total variability to be due to variability within populations while 12% were attributed to variability among groups. Stepwise discriminant analysis identified a subset of 126 AFLP markers which best separated individual plants into the three respective groups. Genetic distances between populations were considerably larger among groups than among populations within the same group, providing further evidence for the genetic distinction between Mattenklee landraces, Mattenklee cultivars and field clover cultivars. AFLP markers identified two landrace clusters, containing three and four populations respectively, which, together with one additional landrace, may sufficiently represent the genetic variability of all eight landraces investigated. The results of this study strongly suggest that Swiss Mattenklee landraces form a genetically distinct group of red clover. The data obtained provide criteria on how to efficiently manage, preserve and exploit Mattenklee germplasm.     

The genetic structure of taro: a comparison of RAPD and isozyme markers

Germplasm characterization and evolutionary process in viable populations are important links between the conservation and utilization of plant genetic resources. Here, an investigation is made, based on molecular and biochemical techniques for assessing and exploiting the genetic variability in germplasm characterization of taro, which would be useful in plant breeding and ex situ conservation of taro plant genetic resources. Geographical differentiation and phylogenetic relationships of Indian taro, Colocasia esculenta (L.) Schott, were analyzed by random amplified polymorphic DNA (RAPD) and isozyme of seven enzyme systems with specific reference to the Muktakeshi accession, which has been to be proved resistant to taro leaf blight caused by P. colocasiae. The significant differentiations in Indian taro cultivars were clearly demonstrated by RAPD and isozyme analysis. RAPD markers showed higher values for genetic differentiation among taro cultivars and lower coefficient of variation than those obtained from isozymes. Genetic differentiation was evident in the taro accessions collected from different regions of India. It appears that when taro cultivation was introduced to a new area, only a small fraction of genetic variability in heterogeneous taro populations was transferred, possibly causing random differentiation among locally adapted taro populations. The selected primers will be useful for future genetic analysis and provide taro breeders with a genetic basis for selection of parents for crop improvement. Polymorphic markers identified in the DNA fingerprinting study will be useful for screening a segregating population, which is being generated in our laboratory aimed at developing a taro genetic linkage map.