大连地区岛屿与大陆玉竹种群遗传多样性的ISSR分析

选取大连地区大陆与海岛共有植物玉竹为研究对象,采用ISSR分子标记技术对来自5个海岛和4个大陆种群的262个玉竹个体进行遗传多样性的比较和分析。从10个筛选出的ISSR引物扩增得到120个位点信息,其中多态性条带百分率为91.67%,Nei's基因多样性指数（h）为0.346 0,Shannon信息指数（I）为0.510 8。其遗传分化系数（G_st）为0.117 4,基因流（N_m）为3.758 5。研究结果表明玉竹天然种群的遗传多样性较为丰富,种群间基因交流较为频繁,遗传距离与地理距离具有一定的相关性。通过海岛与大陆种群遗传多样性的比对发现,海岛种群的遗传多样性略高于大陆种群,表明在孤立的生境和更为复杂的选择压力下,海岛玉竹种群可能会积累更多的遗传变异从而形成较高的遗传多样性水平。本文研究结果将为进一步探讨隔离生境中天然植物种群遗传进化规律提供证据。     

日本岛屿山茶种群遗传结构的ISSR分析

为查明日本岛屿山茶种群的生存状况及了解岛屿隔离对山茶种群遗传结构的影响,采用ISSR分子标记,利用筛选的20条引物对日本5个山茶（Camellia japonica）种群的遗传结构进行分析。结果表明：山茶种群的多态位点百分比（PPB）为70.29％,Nei’s基因多样性指数（H_E）为0.281 9,Shannon信息多态性指数（H）为0.409 5,与其它岛屿种群相比遗传多样性水平较高,表明山茶种群的生存状况较好。基因分化系数G_st=0.205 7,种群间具有较高的遗传分化;地理距离与遗传距离具有显著相关性（r=0.821 7,p<0.05）,UPGMA也将同岛种群聚在一起,表明岛屿隔离对山茶种群的遗传分化具有重要影响。借鉴日本岛屿山茶种群的保护经验,建议加强我国岛屿山茶种群的就地保护力度,同时建立山茶种质资源库,促进基因交流。     

舟山群岛野生山茶种群遗传多样性的ISSR分析

采用ISSR分子标记,利用筛选的20条引物对舟山群岛4个野生山茶（Camellia japonica）种群的遗传多样性进行分析。结果表明：山茶种群的多态位点百分比（PPB）为64.06％,Nei’s基因多样性指数（HE）为0.2390,Shannon信息多态性指数（H）为0.3548,种群水平遗传多样性较高。基因分化系数Gst = 0.2241,表明种群间具有较高的遗传分化。地理距离与遗传距离具有显著相关性（r = 0.9653,P<0.05）,表明岛屿隔离对山茶种群的遗传分化具有重要影响。UPGMA聚类表明同岛种群间的亲缘关系更近。基于舟山群岛山茶种群遗传结构分析,建议在其自然生长地加强就地保护。     

山东省长岛县南部四岛藜（Chenopodium album L.）天然种群遗传多样性的ISSR分析

采用ISSR分子标记对分布于山东省长岛县南部的北长山、南长山、大黑山和小黑山4个岛屿上的藜天然种群共81个个体进行了遗传多样性及遗传结构的研究。13个引物共检测到157个可重复的位点。遗传多样性研究结果表明：种内的多态位点比率为66.24％,具有较高的遗传多样性（Shannon（I）指数在物种水平上为0.332 0）;种群间有一定的遗传分化,根据G_st值,种群间的遗传多样性占总群体的9.27％。遗传距离分析表明,XHS种群和NCS种群的遗传一致度最高,与地理距离无相关性。     

岛屿生境下黄毛鼠种群的遗传变异

岛屿具有独特的生态系统,常被生态学家和进化生物学家视为研究生物进化的天然实验室,岛屿生物地理学也受到了越来越多科学家的关注。对舟山群岛8个面积不等岛屿的黄毛鼠(Rattus losea)种群进行了调查,分析了8个种群的遗传变异特征,对探讨岛屿理论中的种群动态和种群分化具有重要意义。采用线粒体分子标记技术,利用PCR扩增得到D-loop区基因序列815 bp,在330个黄毛鼠样本中共识别出15个单倍型,平均核苷酸多样性(P_i)为0.001,平均单倍型多样性(H_d)为0.364,表明舟山群岛黄毛鼠种群的遗传多样性较低。Tajima′s D中性检验显示除了小盘峙种群,均为显著负值(P0.01),表明种群受到了自然选择的作用,历史上发生过种群扩张。AMOVE显示,群体间的遗传分化指数平均值为0.745,处于较高的分化水平,表明遗传变异主要来自种群间,占74.5%。基于线粒体D-loop区序列构建的系统发育树和中值网络都表明8个岛屿的黄毛鼠种群起源于两个母系。此外,Mental检验显示不同岛屿种群间的遗传距离与岛屿间地理距离之间存在显著正相关关系(r=0.6077,P=0.004),种群遗传多样性与岛屿面积并未发现显著相关性(r=0.6255,P=0.1840)。研究结果可为岛屿黄毛鼠种群的微观演化以及一些岛屿物种的进化理论提供参考。     

红眼突变灰飞虱的生物学特性和交配优势

灰飞虱Laodelphax striatellus是我国重要水稻害虫之一, 表型变异可能影响灰飞虱的配偶选择性和种群特性。本实验采用生命表构建法研究了红眼突变灰飞虱的繁殖力、 内禀增长率等种群生命参数, 然后以1红眼雌虫、 1红眼雄虫和1纯合黑眼雄虫（♀rr×♂rr♂BB）或1红眼雄虫、 1红眼雌虫和1纯合黑眼雌虫（♀rr♀BB×♂rr）配对模式以及不同比例红眼成虫群体配对模式研究红眼突变对灰飞虱交配竞争力的影响。结果表明红眼突变灰飞虱除若虫死亡率（17.1%）显著高于正常个体（10.3%） (P<0.05)外, 其他生物学指标如繁殖力、 卵孵化历期、 若虫发育历期、 成虫寿命、 内禀增长率等与正常个体无显著差异。但红眼突变对灰飞虱配偶选择性有一定的影响。♀rr×♂rr♂BB和♀rr♀BB×♂rr组合F1代红眼和黑眼分离比例卡方试验值为18.15和14.99, 大于理论值。当红眼与黑眼个体以2︰8比例配对时, 红眼灰飞虱雄虫存在交配优势, 其后代红眼个体数大于期望值。这些结果为进一步研究灰飞虱红眼突变机理和利用红眼基因标记研究灰飞虱遗传分化奠定了基础     

中华稻蝗不同地理种群遗传多样性的AFLP分析

为研究中华稻蝗种群遗传多样性和遗传结构, 文章对我国7省市的7个中华稻蝗种群进行AFLP分析。选取7对引物扩增128个个体, 共产生336条带, 多态性条带292条, 占86.90%。结果表明: 中华稻蝗种群具有较高的遗传多样性水平, 其中海南万宁种群的遗传多样性高于其他各种群。Mantel检验(r=0.27, P=0.89)表明中华稻蝗各种群遗传距离与地理距离间没有显著相关性。种群间具有明显的遗传分化现象。UPGMA(Unweighted pair group method average)聚类分析显示, 7个中华稻蝗种群按地理距离分为3支: 北方北京昌平、山西太原和山东济宁为一支; 南方陕西汉中、湖南长沙和广西来宾为一支; 海南万宁单独为一支。上述结果以及PCA(Principal component analysis)分析均表明由于地理隔离中华稻蝗种群显示出明显的南北分化和岛屿大陆种群遗传分化现象。     

三江源和祁连山国家公园雪豹种群的遗传结构分析

掌握遗传信息对濒危物种的保护和管理具有重要意义。本研究在我国雪豹重要分布区祁连山和三江源国家公园分别采集粪便样品,利用mtDNA的cyt b基因、微卫星多态性位点进行了雪豹的物种鉴定、个体识别和种群遗传结构评估。在采集286份疑似雪豹粪便样品中,成功的对86份雪豹样品进行了扩增鉴定,利用微卫星位点进行个体识别获得41只雪豹个体,其中祁连山国家公园26只,三江源国家公园15只。通过等位基因数、有效等位基因数、观测杂合度、期望杂合度、多态信息含量等指标进行种群遗传多样性评估,认为雪豹种群遗传多样性相对较低,但祁连山国家公园雪豹种群遗传多样性相对较高。STRUCTURE进行群体遗传结构分析表明,4个种群可以划分为3个遗传类群,祁连山国家公园的种群（YCW和QLS）与三江源国家种群(DC和SJ)的遗传差异,可能与种群间的地理隔离存在明显的相似性。     

海南岛中华蜜蜂遗传多样性的微卫星DNA分析

为了解海南岛中华蜜蜂Apis cerana cerana的遗传多样性和遗传结构及其与大陆种群的关系, 本研究应用10个微卫星DNA标记对海南岛11个地点627个蜂群的627头工蜂样本和大陆2个地点102个蜂群的102头工蜂样本进行了分析。结果表明： 海南岛中华蜜蜂遗传多样性较高, 单个位点检测到等位基因5～17个; 各种群平均等位基因数为4.5～7.0个, 平均杂合度为0.59～0.65。海南岛中华蜜蜂在10个位点上表现出相似遗传结构, 文昌和屯昌种群在AT101位点的等位基因频率较特殊。岛内 岛外中华蜜蜂的遗传分化系数F_ST范围为0.06～0.13; 文昌、 屯昌种群分别同海南岛内其他9个种群的F_ST（0.06～0.12）大于这9个种群间的FST（0～0.05）。海南岛中华蜜蜂同邻近大陆种群发生了明显的遗传分化; 除文昌、 屯昌种群发生中等程度的分化外, 海南岛内其他种群之间遗传分化较小。本研究结果对海南岛中华蜜蜂资源的保护和合理利用具有重要的指导意义。     

黑头酸臭蚁微卫星标记的分离与开发(英文)

【目的】本研究旨在分离黑头酸臭蚁Tapinoma melanocephalum基因组微卫星标记,确定这些微卫星位点的多态性。【方法】使用454 GS-FLX焦磷酸测序技术开发来自中国华南陆地和岛屿的11个黑头酸臭蚁地理种群基因组微卫星位点。从随机设计的100对微卫星引物中筛选出10对引物,用于确定黑头酸臭蚁4个地理种群［东澳岛(DAD)、荷包岛(HBD)、梅州(MZ)和山咀(SJ)］10个微卫星位点的多态性,分析种群遗传多样性和种群分化。【结果】从11个黑头酸臭蚁地理种群基因组中成功开发和分离10对微卫星引物。在DAD, HBD, MZ和SJ 4个地理种群中,10个微卫星位点中7个有高多态性,这10个位点均显著偏离Hardy-Weinberg平衡;每个位点的等位基因数量(A)是3.50~9.00个,每个地理种群每个位点等位基因丰富度(A_R)在1.992~12.938之间。岛屿地理种群(DAD和HBD)的AR和预期杂合度(H_E)与大陆地理种群(MZ和SJ)的相比差异不显著。4个地理种群均显示高水平遗传分化(F_ST=0.15969);HBD和MZ种群与其他配对地理种群相比,遗传分化较高(F_ST=0.185),基因流较低,说明这两个种群基因流被限制。此外,遗传变异来自种群内个体之间。【结论】筛选新的微卫星位点能够为研究黑头酸臭蚁种群结构和繁殖结构提供有效工具,以深入了解其传播机制。     

Genetic similarity, breeding distribution range and sexual selection

Large populations with extensive breeding distributions may sustain greater genetic variability, thus producing a positive relationship between genetic variation and population size. Levels of genetic variability may also be affected by sexual selection, which could either reduce levels because a small fraction of males contribute to the following generation, or augment them by generating genetic variability through elevated rates of mutations. We investigated to what extent genetic variability, as estimated from band sharing coefficients for minisatellite markers, could be predicted by breeding distribution range, population size and intensity of sexual selection (as reflected by degree of polygyny and extra-pair paternity). Across a sample of 62 species of birds in the Western Palearctic, we found extensive interspecific variation in band sharing coefficients. High band sharing coefficients (implying low local genetic variability among individuals) were associated with restricted breeding distributions, a conclusion confirmed by analysis of statistically independent linear contrasts. Independently, species with large population sizes had small band sharing coefficients. Furthermore, bird species with a high richness of subspecies for their breeding distribution range had higher band sharing coefficients. Finally, bird species with high levels of polygyny and extra-pair paternity had small band sharing coefficients. These results suggest that breeding distribution range, population size and intensity of sexual selection are important predictors of levels of genetic variability in extant populations.     

Extrapair paternity in insular African Blue Tits Cyanistes teneriffae is no less frequent than in continental Eurasian Blue Tits Cyanistes caeruleus

Birds breeding on islands often exhibit lower rates of extrapair paternity than their mainland counterparts, perhaps explained by low genetic variation, ‘slower’ life histories and reduced sexual selection in island populations. Extrapair paternity was apparent in 39% (12/19) of broods, and encompassed 15% (21/137) of nestlings, in a population of African Blue Tits Cyanistes teneriffae, in Tenerife, Canary Islands. There were no cases of intraspecific brood parasitism. The incidence of extrapair young lies in the upper range of that reported from mainland populations of the closely related Eurasian Blue Tit Cyanistes caeruleus. We conclude that there is no strong island effect on the genetic mating system in the Cyanistes species group but that extrapair paternity rates in Cyanistes are greater at southern latitudes.     

Acoustic structure of songs in island populations of the Japanese bush warbler, Cettia diphone, in relation to sexual selection

Bird songs in island populations have often been reported to be simplified, in that island birds have a smaller number of song types and song-element types compared to mainland birds. However, there is less information on the characteristics of acoustic structure in island songs. I investigated song structure of one mainland and three island populations of Japanese bush warblers, Cettia diphone, and found that island songs had an acoustically simple structure. The frequency-modulated (FM) portions of the songs were shorter and had fewer frequency inflections in the insular populations than in the mainland population, while the number of FM notes, the frequency range of these notes, and the song repertoire sizes of males did not differ between the islands and the mainland. I also investigated whether the song complexity is related to sexual selection pressure using the degree of sexual size dimorphism as a proxy for the latter. The degree of dimorphism in body mass was larger on the mainland. Thus, weakened sexual selection on islands is a possible factor in the formation of simple songs. Further studies related to male–male competition and female choice on islands are required.     

GENETIC VARIABILITY AND POPULATION DIFFERENTIATION INFERRED FROM DNA FINGERPRINTING IN SILVEREYES (AVES: ZOSTEROPIDAE)

This study evaluated DNA fingerprinting as a tool for estimating population genetic diversity and differentiation by comparing minisatellite variation in island and mainland populations of silvereyes (Aves: Zosterops lateralis). Three populations with different recent histories were compared: (1) Heron Island and neighboring islands, colonized 3000 to 4000 yr ago; (2) Lady Elliot Island, colonized within the past two decades; and (3) an adjacent mainland population, which presumably has existed for thousands of years. The degree of genetic variability within the three populations reflected both their size and the time since their colonization. Minisatellite diversity was highest in the mainland population, intermediate in the Capricorn Island group (which was shown to represent a single admixture), and lowest in the Lady Elliot Island population, possibly because of a recent population bottleneck during colonization. Mean band sharing between any two populations was less than the mean within either of those populations, and four fingerprint bands common to island birds were rare or absent in the fingerprints of mainland birds. In the absence of significant gene flow between the mainland and the islands, the populations have apparently become distinct at minisatellite loci, as evidenced by differences in both allelic diversity and in the frequencies of specific fragments. Within the Heron Island population, cohort analyses demonstrated the temporal stability of the fingerprint profile over 6 yr. This study demonstrates that length polymorphisms at minisatellite loci may be stable enough over time to retain information about recent historical and demographic effects on the relative genetic variability and differentiation of small, closely related populations.     

Extra-pair paternity in birds: explaining variation between species and populations

Molecular techniques used to assign paternity have revealed previously unknown incidences of extra-pair paternity in socially monogamous bird species. DNA fingerprinting has now been used sufficiently often for mating-system biologists to appreciate the natural variation in the frequency of broods showing extra-pair young. The variation between species and between populations of the same species is surprisingly marked. Explaining this variation may help us to understand the factors promoting sexual selection. Recent comparative studies and detailed behavioural studies suggest that factors such as breeding density, genetic variation in the population and the intensity of sexual conflicts determine the costs and benefits to males and females of engaging in extra-pair copulations, and therefore contribute to the variation among populations.     

Contrasting levels of extra-pair paternity in mainland and island populations of the house sparrow (Passer domesticus): is there an 'island effect'?

Despite the many studies that have investigated the genetic mating system of socially monogamous birds, very little is known about the underlying causes of extra-pair paternity and few studies have attempted to test those hypotheses which have been suggested. This study describes die analysis of die genetic mating system of two populations of the house sparrow [Passer domesticus) , and uses the results from four other populations to test existing hypodieses using an intra-specific comparative approach. The parentage analysis was conducted using a combination of published and newly presented microsatellite loci isolated from the house sparrow. One population in Kentucky, U.S.A. was found to contain what may be considered to be a typical level of extra-pair paternity for mis species (10.5%, 19/185 offspring). The second, a population on the island of Lundy, UK, exhibited a very low level (1.3%, 4/305 offspring), significandy lower dian that in all the other populations studied so far. The finding of such diverse rates of extra-pair paternity, along with the existing estimates from ofher populations, has allowed us to test the effects of breeding density and genetic variation on die level of extra-pair paternity. We found no effect of either factor on the frequency of extra-pair paternity in the house sparrow, leaving the cause of this variation open to fresh ideas.     

Immune defence,extra-pair paternity,and sexual selection in birds

Secondary sexual characters have been suggested to reliably reflect the ability of individuals to resist debilitating parasites, and females may gain direct or indirect fitness benefits from preferring the most extravagantly ornamented males. Extra-pair paternity provides an estimate of an important component of sexual selection in birds. Species with a high frequency of extra-pair paternity have a variance in realized reproductive success that is greater than the variance in apparent reproductive success, and extra-pair copulations and hence extra-pair paternity by females are often directly associated with the expression of male secondary sexual characters. If sexually dichromatic species have experienced a long period of antagonistic coevolution with their parasites, such species should have evolved larger immune defence organs than sexually monochromatic species. Bird species with sexual dichromatism had larger spleens for their body size than monochromatic species in a comparative analysis. Furthermore, species with a high frequency of extra-pair paternity were sexually dichromatic and had large spleens for their body size. These results are consistent with the hypothesis that females of dichromatic bird species seek extra-pair copulations to obtain indirect fitness benefits in terms of superior resistance of their offspring to virulent parasites.     

Contrasting Levels of Variation in Neutral and Quantitative Genetic Loci on Island Populations of Moor Frogs (<Emphasis Type="Italic">Rana arvalis</Emphasis>)

Reduced levels of genetic variability and a prominent differentiation in both neutral marker genes and phenotypic traits are typical for many island populations as compared to their mainland conspecifics. However, whether genetic diversity in neutral marker genes reflects genetic variability in quantitative traits, and thus, their evolutionary potential, remains typically unclear. Moreover, the phenotypic differentiation on islands could be attributable to phenotypic plasticity, selection or drift; something which seldom has been tested. Using eight polymorphic microsatellite loci and quantitative genetic breeding experiments we conducted a detailed comparison on genetic variability and differentiation between Nordic islands (viz. Gotland, Öland and Læsø) and neighbouring mainland populations of moor frogs (Rana arvalis). As expected, the neutral variation was generally lower in island than in mainland populations. But as opposed to this, higher levels of additive genetic variation (V _A) in body size and tibia length were found on the island of Gotland as compared to the mainland population. When comparing the differentiation seen in neutral marker genes (F _ST) with the differentiation in genes coding quantitative traits (Q _ST) two different evolutionary scenarios were found: while selection might explain a smaller size of moor frogs on Gotland, the differentiation seen in tibia length could be explained by genetic drift. These results highlight the limited utility of microsatellite loci alone in inferring the causes behind an observed phenotypic differentiation, or in predicting the amount of genetic variation in ecologically important quantitative traits.     

High fidelity on islands: a comparative study of extrapair paternity in passerine birds

It is commonly assumed that the intensity of sexual selectionis lower in island populations. Extrapair paternity (EPP) iswidespread within passerine birds and is indicative of sexualselection. A conservative analysis of the levels of EPP inisland and equivalent mainland populations of passerines revealsthat insular populations are indeed characterized by low levelsof EPP. This supports the idea that the intensity of sexualselection is lower on islands. This relationship has previouslybeen predicted, based on the assumption of low levels of geneticvariation for fitness in such populations. The evidence fromthis analysis suggests that this is just one of several nonmutuallyexclusive hypotheses that may explain the high fidelity of island-living females.