安徽羽叶报春和毛茛叶报春的微形态特征

在扫描电子显微镜和光学显微镜下,观察了安徽羽叶报春(Primula merrilliana Schltr.)与毛茛叶报春(Primula cicutariifolia Pax)的种子、花粉形态及表面纹饰与叶表皮形态结构.结果表明:2种类的种子都呈不规则七面体或多面体,多具五边形纹饰;安徽羽叶报春的种皮雕纹浅,网眼具许多小的乳头状突起;毛茛叶报春的种皮雕纹明显,网眼粗糙,具许多大的乳头状突起.2种类花粉均为球形,具散孔(孔数达10个以上),具网状雕纹.2种类的叶表皮细胞呈凹凸镶嵌状不规则排列,而在中脉处呈长方形或略带微波状长方形,上表皮细胞稍大;叶两面被腺毛,且顶端具水孔.气孔的分布属于偏叶下表面生长,在边缘处尤密,而在中脉处近无;相对而言,安徽羽叶报春的气孔略比毛茛叶报春的气孔小,且密度也低;电子显微镜下2种类的气孔外拱盖内缘光滑,保卫细胞外缘隆起明显,中间凹陷,其上着生的乳头状突起安徽羽叶报春不如毛茛叶报春明显.     

珍稀濒危植物安徽羽叶报春遗传多样性的RAPD分析

利用RAPD分子标记对安徽特有濒危物种安徽羽叶报春（Primula merrilliana）6个自然居群的134个个体的遗传多样性进行了研究。从100个随机引物中筛选出12个RAPD引物,扩增共得到158条带,其中129个多态性位点（PPL）。POPGENE分析显示安徽羽叶报春具有较丰富的遗传变异（PPL=81.65%,He=0.2515,Ho=0.3849）。Nei′s基因多样性指数计算的居群间遗传分化系数（GST=0.5511）与Shannon信息指数（54.48%）基本一致。生境的片段化和基因流障碍可能是导致居群间遗传分化显著的主要原因。针对安徽羽叶报春的居群遗传变异提出了相应的保护措施：保护好自然生境和现有的居群及个体;加强居群间的基因流动;在迁地保护过程中,在尽可能多的居群中采样,以提高栽培居群的遗传多样性。     

毛茛叶报春组一存疑种花粉形态的多样性研究

对分布于浙江西北部的毛茛叶报春组(sect. Ranunculoides)一存疑种5个居群共50个植株的花粉形态进行了研究观察。结果表明该存疑种的花粉形态特征在种下具高度多样化,根据萌发孔类型、数量及组成的不同,其花粉可划分为多沟型、沟多孔少型、孔多沟少型、散孔型和环沟型5种类型;而且居群间花粉的大小及花粉类型的组成也存在较大的差异;此外,同一个植株或同一个花粉囊的花粉也可能具有多种类型的花粉。本文进一步证明了花粉形态特征在种内可能存在多样化的现象。花粉形态特征支持该存疑种为一个独立的新物种,它很可能是由具多沟型和散孔型花粉的亲本杂交进化而来。     

毛茛叶报春的遗传多样性及遗传结构

毛茛叶报春(Primula ranunculoides)是我国特有的珍稀濒危花卉,具较好的园艺开发潜力,其野生种群已十分稀少。本文利用9对微卫星引物对7个自然种群共222个个体的遗传多样性和遗传结构进行了研究。结果表明,与近缘种相比,毛茛叶报春具较低的遗传多样性,种群间分化明显。种群的平均观察杂合度为0.286,期望杂合度为0.330,种群遗传多样性与植株密度有显著的正相关性,而与种群大小和面积无显著相关性。种群间的平均基因流Nm=0.730。AMOVA分析表明毛茛叶报春有48.08%的变异存在于种群间,51.92%出现在种群内。毛茛叶报春种下的遗传结构与地形关系密切,山脉间的两湖平原(江汉平原和洞庭湖平原)及武宁和修水低洼农耕区等异质生境是其主要的基因流屏障。建议将毛茛叶报春划分为九岭山、幕阜山、七姊妹山和银炉4个单元进行遗传多样性管理。     

安徽羽叶报春核心和边缘居群的形态变异比较研究

为了解濒危二型花柱植物安徽羽叶报春(Primula merrilliana)居群的形态变异,对其4个核心居群和3个边缘居群的14个形态性状进行了比较研究。结果表明,核心居群形态性状的变异系数为0.09~0.50,边缘居群为0.05~0.56,变异幅度两者间差异不明显;核心居群有8个性状的均值显著高于边缘居群(P0.05),仅有3个性状(花冠直径、花瓣宽和叶宽)为边缘居群高于核心居群。核心居群两型花间的互惠指数较高也较稳定(0.83~0.90),花型间互惠程度较高,而边缘居群的互惠指数差异较大(0.60~0.93),不同居群的互惠程度变化较大。因此,两型花柱植物安徽羽叶报春的形态性状变异基本支持"中心丰富模型"假说,并对其保护策略进行了探讨。     

番茄种质资源遗传多样性分析与RAPD应用

对我们种质库中的29份番茄材料的观察结果,证明其中至少保存有10对以上的形态学基因的变异,10对基因将可提供不同基因重组的巨大可能性,在一定程度上反映出种质资源库保存遗传多样性的潜力。对取自种质库中的6份樱桃番茄材料所配制的7个F1代果实品质的性状调查结果初步显示,有些品质性状存在优于市场上销售品的可能。用18个引物对6个樱桃番茄亲本及其所配制的8个F1进行RAPD扩增的结果,有12个引物可以扩增,不同引物能显示被检测种质多态性的相对能力也不相同。既能在多数材料中扩增,又能够有效的显示多态性的引物分别是：A11,K05,C15和A17,其中K05和A11能产生最多的扩增带。另外,引物A11和C19可用于2013B,B11可用于2018A杂交种的纯度检验。并初步探讨了双引物扩增的结果。     

濒危植物浮叶慈姑遗传多样性的RAPD分析

采用RAPD分子标记技术,对内蒙古二卡河(EK)和黑龙江库都尔(KDE)的浮叶慈姑居群进行了遗传多样性分析。 从60个随机引物中筛选出14个引物对2个居群共48个样品进行扩增,得到93条清晰的条带,其中70条具有多态性,即物 种水平上的多态位点百分率(PPB)为75.27%。POPGENE分析结果表明:二卡河居群的PPB为66.67%,库都尔居群的PPB 为72.04%。两个居群间基因分化系数(Gst)为0.0628,即遗传变异有很大一部分是来自居群内(93.72%)。结合相关的分析 表明生态学因素可能是浮叶慈姑濒危的主要原因。     

濒危植物资源冷杉遗传多样性研究

资源冷杉(Abies ziyuanensis)属松科(Pinaceae)冷杉属(Abies),是国家一级保护的濒危植物。利用RAPD分子标记对分布于广西资源县银竹老山和湖南省炎陵县大院的2个资源冷杉种群共54株进行了遗传多样性分析。用20个随机引物共扩增到126个位点,其中66个位点是多态性的,总的多态位点百分率为52.4％,在两个种群分别为33.6％和31。2％。Nei's基因多样性为0.312,Shannon信息指数为0.475,两个种群的遗传分化系数Gst为0.455。基于Nei's遗传距离进行了UPGMA聚类分析,结果两种群的样品彼此明显区分开来。分析结果表明资源冷杉种群内的遗传多样性较低,但两种群间的遗传分化明显。需要同时重视两分布地的资源冷杉的保护工作。     

橡胶树种质资源遗传多样性研究——Ⅰ．速生种质遗传多样性RAPD分析

应用RAPD技术对8份野生种质和12份栽培种质进行遗传多样性分析,筛选到18个具有多态性扩增的引物．共扩增出128条带。据Nei-Li相似系数将20份材料分别聚为野生种质和栽培种质两大类。5个野生种质聚为野生种质类群,12个栽培种质和3个野生种质聚为栽培种质类群。研究结果表明,RAPD技术用于橡胶树种质资源研究,能够为野生种质优良特性导入栽培种质提供分子水平的参考依据。     

安徽地区花生根瘤菌遗传多样性的研究

采用RAPD技术对分离自安徽地区的花生根瘤菌和部分参比菌株进行了遗传多样性和系统发育研究。结果表明来自凤阳和山东青岛地区花生根瘤菌的遗传距离比快生型和慢生型根瘤菌之间的遗传距离更远;安徽地区花生根瘤菌具有复杂的遗传基础,其遗传多样性丰富,其中来自宿州、合肥、贵池三地区的花生根瘤菌归为慢生型根瘤菌;而来自巢湖、宿州、淮北、芜湖地区的花生根瘤菌与快生型苜蓿根瘤菌的遗传地位更为接近,为快生型根瘤菌。     

自花授粉在安徽羽叶报春花色选育中应用的初步研究

安徽羽叶报春是我国特有的一种珍稀濒危花卉。论文对自花授粉在其花色选育中的应用进行了初步研究。结果表明：安徽羽叶报春自花授粉亲和性较高,平均结籽数可达36.03粒/果,能达到正配授粉结籽数的71.11%（正配授粉结籽数为50.69粒/果）,而且自花授粉种子也基本能正常萌发,萌发率为41.13%,达到正配授粉种子萌发率的57.98%。花色分析显示自花授粉子代花色R值比重均值（即红色成分,为0.382）显著高于其亲本群体及正配授粉子代的均值（均为0.375左右）。因此安徽羽叶报春自花授粉虽存在一定的衰退现象,但它有利于花色的选育和纯合品系的获得,在其花色的选育过程中应加以重视和利用。     

Comparative study of pollination biology of two closely related alpine Primula species,namely Primula beesiana and P. bulleyana (Primulaceae)

Abstract The comparative pollination biology of a population of Primula beesiana, a population of P. bulleyana, and an overlapping population of these two species in Yulong Shan, Yunnan Province, China, was studied in 2004 and 2005. The results indicate that both P. beesiana and P. bulleyana are typical heterostylous and obligate outcrossing species; the main pollinators of the two species were bees and butterflies. At the sites of all three populations, the main pollinating visitors of the two species showed preference for one of the two species, resulting in the ethological isolation of the two species by the pollinators. This ethological isolation contributes to the reproductive isolation of the two species, which supports the hypothesis that P. beesiana and P. bulleyana are two distinct species. The reproductive isolation of the two species (ethological isolation) is probably an important mechanism in maintaining species boundaries in the genus and has contributed to the species diversification of Primula in the area. In addition, gene exchanges between P. beesiana and P. bulleyana has occurred to some extent in the overlapping population, but whether natural hybridization has contributed to species diversification in Primula remains to be determined.     

Comparative study of pollination biology of two closely related alpine Primula species,namely Primula beesiana and P.bulleyana (Primulaceae)

The comparative pollination biology of a population of Primula beesiana,a population of P.bulleyana,and an overlapping population of these two species in Yulong Shan,Yunnan Province,China,was studied in 2004 and 2005.The results indicate that both P.beesiana and P.bulleyana are typical heterostylous and obligate outcrossing species;the main pollinators of the two species were bees and butterflies.At the sites of all three populations,the main pollinating visitors of the two species showed preference for one...     

Very-Long-Chain Wax Constituents from Primula veris and P. acaulis: Does the Paradigm of Non-Branched vs. Branched Chain Dominance Universally Hold in all Plant Taxa?

Herein n-, iso- and anteiso-series of very-long-chained (VLC) alkanes (C₂₁–C₃₅), fatty acid benzyl esters (FABEs; C₂₀–C₃₂), and 2-alkanones (C₂₃–C₃₅) were identified in the wax of Primula veris L. and P. acaulis (L.) L. (Primulaceae). For the very first time in a sample of natural origin, the presence of iso- and anteiso-VLC FABEs and 2-alkanones was unequivocally confirmed by synthetic work, derivatization, and NMR. It should be noted that the studied species produced unusually high amounts of branched wax constituents (e. g., >50 % of 2-alkanones were branched isomers). The domination of iso-isomers, probably biosynthesized from leucine-derived starters, is a unique feature in the Plant Kingdom. The plant organ distribution of these VLC compounds in P. acaulis samples (different habitats and phenological phases) pointed to their possible ecological value. This was supported by a eutectic behavior of binary blends of FABEs and alkanes, as well as by high UV-C absorption by FABEs.     

A comparison of the genetic diversity in Dipteronia sinensis Oliv. and Dipteronia dyeriana Henry

Dipteronia is an endemic genus to China and includes only two species, Dipteronia sinensis and D.dyeriana.Based on random amplified polymorphic DNA (RAPD) markers,a comparative study of the genetic diversity and genetic structure of Dipteronia was performed.In total,128 and 103 loci were detected in 17 D.sinensis populations and 4 D.dyeriana populations,respectively,using 18 random primers.These results showed that the proportions of polymorphic loci for the two species were 92.97% and 81.55%,respectively,indicating that the genetic diversity of D.sinensis was higher than that of D.dyeriana.Analysis,based on similarity coefficients,Shannon diversity index and Nei gene diversity index,also confirmed this result.AMOVA analysis demonstrated that the genetic variation of D.sinensis within and among populations accounted for 56.89% and 43.11% of the total variation,respectively,and that of D.dyeriana was 57.86% and 42.14%,respectively.The Shannon diversity index and Nei gene diversity index showed similar results.The abovementioned characteristics indicated that the genetic diversity levels of these two species were extremely similar and that the interpopulational genetic differentiation within both species was relatively high.Analysis of the genetic distance among populations also supported this conclusion.Low levels of interpopulational gene flow within both species were believed to be among the leading causes for the above-mentioned phenomenon.The correlation analysis between genetic and geographical distances showed the existence of a remarkably significant correlation between the genetic distance and the longitudinal difference among populations of D.sinensis (p＜0.01),while no significant correlation was found between genetic and geographical distances among populations of D.dyeriana.This indicated that genetic distance was correlated with geographical distances on a large scale rather than on a small scale.This result may be related to differences in the selection pressure on species by their habitats with different distribution ranges.We suggest that in situ conservation efforts should focus on establishing more sites to protect the natural populations and their habitats.Ex situ conservation efforts should focus on enhancing the exchange of seeds and seedlings among populations to facilitate gene exchange and recombination,and to help conserve genetic diversity.     

高大山羊草(Aegilops longissima Schweinf.and Muschl.)遗传多样性的RAPD分析

通过70个 RAPD 引物对高大山羊草15份材料进行扩增,共扩增出766条带,其中无多态性(即相同带)的带115条,占总带数的15%,有多态性的带651条,占总带数的85%。通过分析,发现高大山羊草的 Y315、Y316、Y317与其它12份材料差异很大,这3份材料的特异带有253条,占整个多态性带数的38.9%。经 NTSYS 系统聚类表明,高大山羊草 Y315、Y316、Y317这3份材料为一个类群,而其余12份材料为另一类群;这2个类群中任何一份山羊草与另一类群中任何一份山羊草的遗传距离均很大,变幅为1.38～1.58,是它们各自类群内遗传距离的3倍以上。鉴于这两类材料在分子水平的 RAPD 扩增产物上差异很大,并考虑到这两个类群在形态上也确实存在明显差异,因而建议将高大山羊草分为两个亚种,当然这一观点还有待收集更多的材料做进一步的研究。     

RAPD markers on seed bulks efficiently assess the genetic diversity of a Brassica oleracea L. collection

 The concept of a core collection was elaborated to fit the necessity of optimizing the management, for both conservation and use, of genetic resources in sizeable collections. This approach requires an analysis of how the genetic variability is structured among the accessions. The large number of heterogeneous populations in our collection of Brassica oleracea makes genetic diversity studies based on plant-to-plant analysis impracticable. To overcome this limitation, the variability analysis by RAPD on seed bulks was investigated for its efficiency in assessing the structure of the genetic diversity of this collection. The optimal bulk size and the bulking or sampling variation were evaluated with bulks of different size and with replicated samples. A mixture of known genotypes was also used to characterise the band detection in bulks, and to compare the plant-to-plant and the bulk methods. Forty seeds were chosen to represent each population. In such a bulk, the detection of bands depended on the proportion of the genotype they were derived from in the mixture. Intense and frequent bands were detected in the bulk with a 15% detection limit. The observed bulking or sampling variation within populations was smaller than the variation between populations, leading to an efficient separation of populations with a clustering of all samples of the same population. The distances calculated from bulk data were highly correlated with the distances based on the plant-to-plant analysis. We demonstrated that RAPD on seed bulks can be used to describe the genetic diversity between populations. Received: 27 August 1998 / Accepted: 29 September 1998     

基于分形方法探讨槭属（Acer Linn.）植物叶片的形态多样性及其系统学意义

采用数量性状测量法分析了槭属(Acer Linn.)8种1变种1变型的叶片形态性状差异,并采用分形方法对供试种类局部叶脉和叶片轮廓进行分维值计算;在此基础上,对供试槭属植物叶片的形态多样性进行比较,并讨论了分形理论在叶片形态特征的定量分析及植物系统学研究中的意义。叶片数量性状的测量结果表明：供试种类叶片的矩形度和叶形系数呈显著正相关,纵横轴比与一级脉角呈显著负相关,这些叶片形态参数的变异程度与叶片的形态多样性有关,虽然能在一定程度上反映槭属植物的叶形及叶脉结构变化,但难以充分反映叶片的变异细节及本质特征。分维值的计算结果表明：供试种类的叶片轮廓和局部叶脉的分维值呈显著负相关;叶片轮廓分维值在种间及种内均有显著差异(P<0.05),但部分种类间局部叶脉分维值差异不显著(P>0.05);鸡爪槭(A. palmatum Thunb.)的叶片轮廓和局部叶脉的分维值变异系数显著高于其他供试种类,表明其种内叶片变异的多样性相对较高。根据叶片轮廓和局部叶脉的分维值,可将供试种类分为4类：鸡爪槭、红枫〔A. palmatum f. atropurpureum ( Van Houtte) Schwerim〕和羽裂槭〔A. palmatum var. dissectum ( Thunb.) Miq.〕归为一类,锐角槭( A. acutum W. P. Fang)、色木槭( A. mono Maxim.)、茶条槭( A. ginnala Maxim.)、三角槭( A. buergerianum Miq.)和中华槭( A. sinense Pax)归为一类,建始槭( A. henryi Pax)和樟叶槭( A. cinnamomifolium Hayata)各自归为一类。研究结果揭示：通过叶缘和叶脉的分形分析可以定量反映植物叶片的形态多样性,建议将叶片轮廓分维值和局部叶脉分维值分别作为种水平和属水平的分类依据;此外,分形方法也为定量化研究和评价不同叶片类型的演化程度提供了可行的途径。     

利用RAPD标记分析北美鹅掌楸与鹅掌楸种间遗传多样性

利用ＲＡＰＤ标记技术对鹅掌楸属（Ｌｉｒｉｏｄｅｎｄｒｏｎ Ｌ．）２个现存种鹅掌楸（Ｌｉｒｉｏｄｅｎｄｒｏｎ ｃｈｉｎｅｎｓｅ （Ｈｅｍｓｌ．）Ｓａｒｇ）和北美鹅掌楸（Ｌｉｒｉｏｄｅｎｄｒｏｎ ｔｕｌｉｐｉｆｅｒａ ｌｉｎｎ．）的遗传多样性进行分析,结果表明：２个种都有较高的遗传多样性,但北美鹅掌楸的遗传多样性水平高于鹅掌楸;鹅掌楸的遗传变异主要来自地理种源内,而北美鹅掌楸的遗传变异主要来自地理种源