三个野生群体日本囊对虾遗传多样性的SSR分析

为了解野生种群日本囊对虾遗传分化和改良遗传育种,用SSR技术对福建厦门(XM)、广东湛江(ZJ)、广西北海(BH)3个地区野生日本囊对虾进行遗传多样性的研究。采用了10对微卫星引物对3个野生种群进行分析,10个微卫星位点在3个种群中均表现为高度的多态性,每个位点平均检测到3.87个等位基因;平均多态信息含量为0.5893;3个群体的观测杂合度分别为0.6243、0.5704、0.4661,全部群体观测杂合度平均为0.5536;期望杂合度分别为0.7193、0.6189、0.6226,全部群体平均期望杂合度为0.6536。这说明3个野生种群在10个微卫星位点上均具有丰富的遗传多样性。基于Nei's遗传距离的聚类分析显示厦门群体和湛江群体的遗传距离较近。     

利用17个微卫星标记分析鳙鱼的遗传多样性

选用本实验室克隆的17个鳙鱼微卫星分子标记分析四川泸州和江西鄱阳湖的两个种群鳙鱼的遗传多样性及种质特性,计算和统计了杂合度、多态信息含量（PIC）、有效等位基因数、等位基因频率、遗传距离、遗传相似系数、Hardy-Weinberg平衡偏离指数等方面内容。结果表明：选择使用17个微卫星标记,其中有4个为单态标记,13个为多态标记。江西和四川鳙鱼群体每个微卫星位点的平均等位基因数分别为3.325及3.882,平均有效等位基因数分别为3.531及2.676,多态位点百分率分别为82.4及70.5, 17个微卫星标记共有等位基因71个,多态微卫星位点的PIC在0.114~0.960之间变动,平均为0.417 ,两群体位点平均观测杂合度为0.385和0.452,平均期望杂合度为0.360和0.422,两个群体间的遗传相似系数为0.897,群体间的遗传距离为0.109。     

北京麋鹿苑麋鹿种群的微卫星多态性及遗传结构分析

麋鹿是我国Ⅰ级重点保护的濒危物种,野生种群于19世纪灭绝.北京麋鹿生态实验中心于1985年和1987年自英国乌邦寺共重引入的38只奠基个体经散放式放养后,种群的数量至今已超过了1000只(包括繁育子代外送至国内其他动物园或研究基地的数量).为了探讨该重引入种群的遗传多样性,采用25个微卫星位点对北京麋鹿苑种群及浙江临安亚种群的167只麋鹿个体进行了群体检测,获得的每个位点的平均等位基因数为2.16,平均期望杂合度为0.370,平均多态信息含量为0.301.该结果表明,北京麋鹿苑种群及浙江临安亚种群麋鹿的遗传多样性较贫乏.因此建议与我国引自英国其他种群的麋鹿种群之间进行个体交流,从而增加各种群的遗传基因杂合度,以促进我国麋鹿的可持续发展.     

野生杏和栽培杏的遗传多样性和遗传结构分析

利用SSR分子标记结合荧光毛细管电泳检测技术,研究了野生杏和栽培杏的遗传多样性和遗传结构,结果显示:27个SSR位点,平均每个位点检测到17.82个等位基因(Na)和7.44个有效等位基因(Ne),平均Shannon's信息指数(I)为2.23,平均期望杂合度(He)和观察杂合度(Ho)分别为0.70和0.52。基于SSR位点,群体水平上平均等位基因数、有效等位基因数、期望杂合度、观察杂合度和Shannon's信息指数分别为6.59、4.15、0.70、0.53和1.50,说明我国杏种质资源遗传多样性丰富,其中野生杏资源遗传多样性明显高于栽培杏资源,野生杏中西伯利亚杏种质遗传多样性最高且具有较多的特异等位基因,而栽培杏中仁用杏遗传多样性最低,特有等位基因较少。聚类分析将供试159份种质分为4组。群体遗传结构分析将159份种质划分为5个类群,分类情况与传统形态指标划分基本一致。通过本研究可知,我国杏资源遗传多样性丰富,遗传结构较为复杂;西伯利亚杏与栽培杏亲缘关系较远;野生普通杏与栽培杏具有类似的遗传结构,推测野生普通杏为栽培杏原始种;仁用杏遗传多样性较低,遗传背景狭窄。本研究结果可为杏资源新品种选育及持续利用提供重要的理论依据。     

不同种群海南粗榧(Cephalotaxus mannii)遗传多样性研究

采用垂直板型凝胶电泳技术 ,对海南粗榧 5个种群的遗传多样性进行了研究 ,结果表明 :海南粗榧遗传多样性水平低 ,多态位点比率 P=0 .3 3 ,等位基因平均数 A=1 .3 3 ,平均期望杂合度为 He=0 .1 3 5 ,观察杂合度 Ho=0 .1 3 9,黎母山种群所具有的相对丰富的遗传多样性使其成为保护和科研的重点     

大鳞副泥鳅5个野生群体的遗传多样性分析

利用微卫星分子标记分析了天津地区于桥水库、大黄堡湿地、七里海湿地、团泊水库和潮白新河5个野生大鳞副泥鳅群体的遗传多样性。5个群体在12个微卫星位点共检测到98个等位基因,平均等位基因数为8.500;有效等位基因数为2.713;平均观测杂合度为0.526;平均期望杂合度为0.544。5个群体间的遗传分化指数介于0.021~0.106之间,平均遗传分化指数为0.059,属中低水平的遗传分化。AMOVA分析结果显示,在总的变异中,94.1%的遗传变异来自群体内,5.90%的遗传变异来自于群体间。根据Nei’s遗传距离所绘制的系统树显示,于桥水库、团泊水库、七里海湿地和大黄堡湿地4个群体的遗传距离相对较小聚为一支,潮白新河群体单独为一支。遗传瓶颈效应分析表明,该5个群体近期未经受遗传瓶颈效应,处于突变-漂移平衡。总体来看,天津地区5个野生大鳞副泥鳅群体的遗传多样性较高,可作为品种选育的基础群体。     

白颈长尾雉微卫星多态性的遗传学分析

采用7个微卫星位点遗传标记,对白颈长尾雉(Syrnaticus ellioti)4个地理种群105个个体进行了种群遗传分析。研究发现4个地理种群均偏离Hardy-Weinberg平衡,共检测到62个等位基因,平均等位基因数目为8.86;大多数微卫星位点的观察杂合度值较低,平均为0.504,要明显低于期望杂合度。7个位点的多态信息含量为0.549～0.860,平均为0.712。用无限等位基因模型、逐步突变模型和双相突变模型对4个地理种群的种群瓶颈效应检测,发现各种群近期内都经历过瓶颈效应的影响。地理种群之间的Fst值表明,贵州与湖南地理种群间的分化达到了极显著水平(P<0.001);由Nei氏的无偏遗传距离所构建的邻接树显示,贵州地理种群与湖南地理种群的遗传关系较远。微卫星对不同地理种群的分层分子变异分析(贵州地理种群对其他地理种群)发现:来自地理种群间和组群间的遗传变异量相对较小;而同一地理种群内个体之间的变异量较大(92.84%),且达到显著水平。     

喜马拉雅旱獭种群微卫星变异及遗传多样性

为了解不同地理种群喜马拉雅旱獭(Marmota himalayana)的种群数量变化并探讨其内在的遗传学机制,通过构建部分基因组文库的方法筛选出8个高变异微卫星位点,根据微卫星位点的测序结果设计相应引物,PCR扩增检测了青藏高原4个地理种群(德令哈、乌兰、沱沱河、安多)喜马拉雅旱獭的遗传多态性及其种群结构.研究结果显示:8个位点在喜马拉雅旱獭种群中均为高度多态,观察等位基因数、有效等位基因数、多态信息含量分别为4.75、3.033 2、0.610 2;喜马拉雅旱獭种群总的期望杂合度和观察杂合度分别为0.670、0.699;3个喜马拉雅旱獭种群显著(P＜0.05)或极显著(P＜0.01)偏离H-W平衡状态,且这些偏离平衡的位点均由杂合过度导致(FIS＜0);喜马拉雅旱獭种群的部分位点已经偏离了突变-漂移平衡.结论:筛选出的8个微卫星位点适合于喜马拉雅旱獭种群遗传多样性的研究,所研究的喜马拉雅旱獭种群有较高的遗传多样性,安多地理种群在近期可能经历过瓶颈效应,种群数量曾经下降.     

薇菜SSR分子标记的开发及遗传多样性初步探讨

利用改良FIASCO法(Fast Isolation by AFLP Sequences COntaining repeats)开发出的9对多态性SSR引物评价了薇菜(Osmunda japonica Thunb.)2个野生居群(庐山和恩施)、1个栽培居群(恩施)的遗传多样性和遗传分化水平。结果显示,9个SSR标记在3个薇菜居群中共检测到47个等位基因,每个SSR位点的平均等位基因数为5.222个,观测杂合度和期望杂合度分别为0.000~0.944和0.577~0.834,香农指数为0.962~1.860,表明各SSR位点多态性较高;各居群的平均期望杂合度均大于平均观测杂合度且种内近交系数均为正值,说明3个薇菜居群中都存在非随机交配现象;对各居群的相关遗传多样性参数分析表明,恩施野生居群遗传多样性最高,而其栽培居群最低;庐山野生居群与恩施野生居群间遗传分化系数为0.092,说明两地野生薇菜居群的遗传分化程度较低,AMOVA分析也表明遗传变异主要存在于野生居群内部。     

栖息条件对中华蜜蜂遗传多样性的影响

为了评估不同栖息条件对中华蜜蜂(简称中蜂)种群遗传多样性的影响,本研究运用微卫星标记的方法,对皖南山区4个不同采样点120个中华蜜蜂群体的2400只工蜂样本进行了分析.结果表明:与天然林野生中蜂群相比,单一茶树种植结构下,皖南中蜂群的等位基因数、平均期望杂合度和多态信息含量的差异均不显著;人工驯养中蜂群的等位基因数、多态信息含量差异显著,平均期望杂合度差异不显著;2006年采集的野生中蜂群与天然林野生中蜂群的等位基因数、平均期望杂合度和多态信息含量均差异显著.各种群间存在极显著的遗传分化,平均分化系数为0.32.说明皖南地区茶树单一化种植不会影响中蜂的遗传结构与资源保护.     

中国大陆梅花鹿mtDNA控制区序列变异及种群遗传结构分析

测定了37只中国大陆梅花鹿(Cervus nippon)不同种群mtDNA控制区5′端351 bp的序列，共发现23个变异位点，定义了5种单元型。分子变异分析表明，中国大陆梅花鹿出现了显著的种群分化(Φm＝0．45，Fst＝0．60，P＜0．001)，支持把分布于东北、华南和四川的梅花鹿种群归入各自独立的管理单元。中国大陆、日本南部和日本北部之间无共享单元型，且有25个鉴别位点。最小跨度网络图(Minimum spannlng network，MSN)和基于最大似然法和邻接法的系统发生分析均把单元型聚类为对应于中国大陆、日本南部和日本北部的三个单系，其中中国大陆和日本南部梅花鹿有相对较近的亲缘关系，支持日本梅花鹿的祖先通过至少两个大陆桥从亚洲迁移到日本的观点。     

Genetic differentiation between introduced Central European sika and source populations in Japan: effects of isolation and demographic events

Japanese sika deer (Cervus nippon nippon) were introduced at the turn of nineteenth and twentieth century to many countries in Eurasia, North America and Australasia. Subsequently, free-living invasive populations have become established in several countries, including the Czech Republic, where the expanding sika population causes serious problems through overgrazing, damage through browsing and through competition and hybridisation with native red deer. 122 Japanese and 221 Czech samples were used to examine the genetic diversity, genetic structure, and the level of genetic differentiation between native populations and those introduced to the Czech Republic. Analyses of 22 microsatellite loci revealed, for both countries, evidence of isolation by distance and clear sub-structuring of populations, different from patterns previously revealed by mtDNA markers. The high number of private alleles (58 within the Czech Republic and 84 within Japan), the Fst values, factorial correspondence analysis and Bayesian clustering support a high level of divergence between the source and introduced populations. Genetic variability was generally low due to recent demographic events (founder effect in the Czech population, bottlenecks in Japanese populations); however, the values of expected heterozygosity differed greatly between subpopulations and were not the lowest in the introduced Czech populations. Multiple introductions, rapid population growth, and possible hybridisation with red deer seem to have helped the successful expansion of sika within the Czech Republic. The results also indicate that male-mediated gene flow and human-mediated translocations have significantly influenced the current genetic structure of native sika populations in Japan.     

Bottlenecks, drift and differentiation: the population structure and demographic history of sika deer (Cervus nippon) in the Japanese archipelago

We assessed genetic differentiation and diversity in 14 populations of sika deer (Cervus nippon) from Japan and four populations of sika deer introduced to the UK, using nine microsatellite loci. We observed extreme levels of differentiation and significant differences in diversity between populations. Our results do not support morphological subspecies designations, but are consistent with previous mitochondrial DNA analyses which suggest the existence of two genetically distinct lineages of sika deer in Japan. The source of sika introduced to the UK was identified as Kyushu. The underlying structure of Japanese populations probably derives from drift in separate glacial refugia and male dispersal limited by distance. This structure has been perturbed by bottlenecks and habitat fragmentation, resulting from human activity from the mid-nineteenth century. Most current genetic differentiation and differences in diversity among populations probably result from recent drift. Coalescent model analysis suggests sika on each of the main Japanese islands have experienced different recent population histories. Hokkaido, which has large areas of continuous habitat, has maintained high levels of gene flow. In Honshu the population is highly fragmented and is likely to have been evolving by drift alone. In Kyushu there has been a balance between gene flow and drift but all the populations have experienced high levels of drift. Habitat fragment size was not significantly associated with genetic diversity in populations but there was a significant correlation between habitat fragment size and effective population size.     

中国圈养林麝微卫星DNA多样性研究

本文利用13对微卫星标记,对我国3个核心种源地（巴山、秦岭、川西高原）圈养林麝种群进行遗传多样性和遗传结构分析。在167份样品中共检测到142个等位基因（Na）,每个位点等位基因数介于7~16,均值为10.92,平均有效等位基因数（Ne）为6.3730,期望杂合度（He）和观测杂合度（Ho）均值分别为0.8302和0.3897。这些圈养林麝种群遗传多样性水平较高,但较低的观测杂合度表明圈养群体存在近交现象。两两群体间的Fst 值和AMOVA分析结果均表明种群之间分化程度不明显。群体遗传结构分析显示,全部样本聚为3个遗传簇（最佳K值=3）,其主体与3个地理来源相符,但种群间存在基因渗透现象。本研究中的秦岭种群遗传变异最为丰富,可以作为种质改良的基因池。     

东北虎豹国家公园梅花鹿的空间遗传格局及其影响因素

东北梅花鹿是东北虎豹国家公园主要的大型食草动物之一,是东北虎豹的主要猎物,对针阔混交林群落的维持有关键的作用,探究其遗传多样性及空间遗传格局对东北梅花鹿的保护以及国家公园生态系统的健康至关重要。在国家公园珲春保护区内,通过非损伤方法获得遗传样本,利用微卫星标记,研究该梅花鹿种群的空间遗传格局及其影响因素。结果表明：本研究区梅花鹿种群平均期望杂合度为0.721,遗传多样性较为丰富。有限的扩散能力常常导致种群在遗传距离上具有显著的空间自相关模式,本研究区梅花鹿种群在0-1km距离等级内在遗传距离上具有显著的空间自相关现象,据此可推测,该地区梅花鹿扩散距离为1km左右。STRUCTURE分析表明,珲春地区梅花鹿种群不存在明显的遗传分化。各种空间变量可以显著影响物种的遗传分化。本研究选取海拔、坡度、坡向、地表起伏率、人类干扰5个变量,研究其对梅花鹿种群遗传结构的影响,这5个变量多被认为与大中型哺乳动物扩散阻碍相关。依据5个变量建立了336个阻力模型,并进行偏曼特尔检验。其中,依据海拔、坡向、地表起伏率、人类干扰假设建立的246个阻力模型与遗传距离之间的关系并不显著,综合所有变量的15个生境适宜性模型阻力模型与遗传距离的关系也都不显著。在依据坡度假设建构的75个阻力模型中,只有1个模型与遗传距离有显著的正相关关系,该模型同时也是在控制空间自相关影响后,在所有模型中与遗传距离相关性最高的模型。根据该模型推测,最适宜梅花鹿扩散的坡度为10°,梅花鹿可能倾向于利用缓坡进行扩散。结果对东北虎豹国家公园梅花鹿种群的保护具有重要意义。     

Genetic structure of,and hybridisation between,red (Cervus elaphus) and sika (Cervus nippon) deer in Ireland

This study investigated the levels of genetic diversity and variation exhibited by red and sika deer in Ireland, along with the extent and regional location of hybridisation between these two species. Bi-parental (microsatellites) and maternally-inherited (mitochondrial DNA) genetic markers were utilised that allowed comparisons between 85 red deer from six localities and 47 sika deer from 3 localities in Ireland. Population genetic structure was assessed using Bayesian analysis, indicating the existence of two genetic clusters in sika deer and three clusters in red deer. Levels of genetic diversity were low in both red and sika deer. These genetic data presented herein indicate a recent introduction of sika deer and subsequent translocations in agreement with historical data. The origins of the current red deer populations found in Ireland, based on genetic data presented in this study, still remain obscure. All hybrid deer (red/sika) found in this study were found in Wicklow, Galway and Mayo where the ‘red-like’ deer exhibited sika deer alleles/haplotypes, and vice versa in the case of Wicklow. Molecular methods proved invaluable in the identification of the hybrid deer because identification of hybrids based on phenotypic external appearances (pelage and body proportions) can be misleading. Areas where red and sika deer are sympatric need to be assessed for the level and extent of hybridisation occurring and thus need to be managed in order to protect the genetic integrity of ‘pure’ red deer populations.     

Genetic diversity analysis by microsatellite markers in four captive populations of the sika deer (Cervus nippon)

The Chinese sika deer (Cervus nippon) is a rare and vulnerable animal in China for medical use. In this study, the genetic diversity and population genetic structure of 113 Chinese sika deer from 4 populations (Linyi Farm, LF; Linyi Park, LP, Yangzhou Farm, YF; Yangzhou Zoo, YZ) were investigated with 14 microsatellite loci. Eighty-three alleles were detected at the 14 loci in all populations. The expected heterozygosity ranged from 0.257 to 0.863 and the observed heterozygosity from 0.226 to 0.821. The polymorphism information content at different loci ranged from 0.217 to 0.825. The results of the HWE (Hardy–Weinberg equilibrium) tests indicated that only four loci (CEH-5, BL42, Mber70, and CEH-2) were in HWE (P > 0.01). The mean number of alleles per population ranged from 3.21 to 5.64, observed and expected heterozygosities ranged from 0.568 to 0.685, respectively. Positive inbreeding coefficient (F_IS) values were found in every population. F_ST values ranged from 0.101 in the LF to 0.155 in the YZ. The genetic identity ranged from 0.1236 to 0.1645. The genetic distance ranged from 0.4746 to 0.6025. The results of this study indicate moderate genetic variation and polymorphism across the loci. Appropriate breeding strategies should be designed for deer in captivity.     

Alarm signals of the Sichuan sika deer Cervus nippon sichuanicus

Sichuan sika deer (Cervus nippon sichuanicus) is an endangered and endemic subspecies of sika deer to Sichuan Province, China. According to our observations in the wild, the Sichuan sika deer makes alarm signals in the presence of actual or potential predators. In order to test the variation of the rhythmic alarm calls in some sex/age classes and different risk contexts, we recorded alarm calls of Sichuan sika deer from 2 October to 30 November 2008 and from 4 April to 5 September 2009 in the Tiebu Nature Reserve, Zoige County, Sichuan Province, China, and made acoustic analysis of these alarm calls. The results showed that the fundamental frequencies of alarm signals of Sichuan sika deer tended to decrease with age, and were significantly higher for females than for males. Duration tended to increase with age, and was significantly longer for males than for females. The fundamental frequencies and duration of alarm calls in adults were significantly higher and shorter respectively in high-risk than in moderate-risk contexts.     

江西桃红岭国家级自然保护区梅花鹿生境适宜性评价

华南梅花鹿(Cervus nippon)被IUCN列入濒危物种,也是我国国家Ⅰ级重点保护动物。目前种群仅分布于江西、浙江、安徽等狭窄的区域内,形成多个孤立种群,生境破碎和丧失被认为是限制梅花鹿种群增长的主要原因。于2011年3月至2013年3月采用样线法和样方法对桃红岭国家级自然保护区梅花鹿栖息地进行了野外调查,利用空间模拟方法,结合地理信息系统(GIS)技术的空间分析功能,以植被类型、坡度、坡向、海拔和人类干扰活动作为评价因子进行了生境适宜性评价。结果表明,桃红岭地区以森林为主,各类林地面积约9 488.15 hm~2,占75.90%,植被类型分为落叶阔叶林、针叶林、常绿阔叶林、针阔混交林、竹林、灌丛、草丛和芭茅丛,面积分别为1664.57、1638.63、3438.21、1247.15、87.85、1143.88、60.92 hm~2和206.94 hm~2。在不考虑人类活动影响时,梅花鹿的适宜生境和次适宜生境面积分别是2233.99 hm~2和2980.24 hm~2,分别占保护区总面积的18.61%和24.83%;而考虑人类活动影响时,梅花鹿的适宜生境和次适宜生境面积分别是1224.04 hm~2和2164.70 hm~2,分别占保护区总面积的10.20%和18.04%。由于梅花鹿的生境受到居民点、主要道路、农田耕作、森林采伐等人类活动的强烈影响,导致大量适宜和次适宜生境丧失、隔离,景观破碎度指数由0.4345增加到0.5898。以潜在可利用生境面积计算,保护区梅花鹿环境容纳量为(568±160)只,而以实际可利用生境面积计算,则只能容纳(368±105)只。适宜生境的丧失和破碎可能是限制桃红岭梅花鹿国家级自然保护区梅花鹿种群恢复的重要因素,在此基础上,通过实际调查提出了管理措施。     

The impact of habitat fragmentation on genetic structure of the Japanese sika deer (<Emphasis Type="Italic">Cervus nippon</Emphasis>) in southern Kantoh,revealed by mitochondrial D-loop sequences

In southern Kantoh, Japanese sika deer (Cervus nippon) are distributed discontinuously due to large urban areas and developed road networks. To assess the impact of habitat fragmentation on sika deer subpopulations, we examined mitochondrial D-loop sequences from 435 individuals throughout southern Kantoh. About 13 haplotypes were detected, and their distributions revealed spatial genetic structure. Significant genetic differentiation was observed among seven of eight subpopulations. We found no significant correlation between pairwise F _ST and geographical distance among subpopulations. Genetic diversity indices suggested that seven of eight subpopulations had probably experienced population bottlenecks in the recent past. Therefore, and in the light of the results of a nested clade analysis of these haplotypes, we conclude that recent fluctuations in population size and the interruption of gene flow due to past and present habitat fragmentation have played major roles influencing the spatial genetic structure of the sika deer population. This is the first evidence of spatial genetic population structure in the highly fragmented sika deer population in Honshu, Japan.