黑麂皖-浙分布中心种群的遗传多样性

本文基于黑麂线粒体控制区序列对皖浙分布中心的4个黑麂种群的遗传多样性和基因流进行了研究。结果显示:4个种群的33个个体中有14个变异位点,占分析序列长度的2·91 %,并由此定义了12个单倍型;遗传多样性检测结果显示4个种群中开化种群具有最高的遗传多样性,应予以优先保护;4个种群间尚存在着一定的基因流,但存在可能由于遗传漂变而产生分化的危险。从Tajima’s D和Fu and Li’s D值的估算结果来看,这4个黑麂种群相对于中性进化的歧异度并没有明显的偏离,具有较为稳定的种群结构(P>0·1),没有明显的证据显示这4个黑麂种群间存在很强的平衡选择。     

海南大田保护区内赤麂的种群数量和特征

20 0 1年10月至2 0 0 2年9月在海南大田国家级自然保护区采用直接观察和在不同生境类型分层抽样进行网捕的方法研究了保护区内赤麂种群的数量、年龄结构、群体大小和组成等。结果显示,赤麂主要生活在落叶季雨林和有刺灌丛中,种群数量为716 13±4 7 6 2只,种群密度为5 4 5±3 6只/km2 。该种群的年龄结构呈倒三角形,成体最多,占6 2 5 0 % ,亚成体占2 8 85 % ,幼体最少,占9 6 2 %。成年个体的雌雄性比是1 32∶1 0 0 ,亚成体为1 5 0∶1 0 0 ,幼体是1 5 0∶1 0 0。群平均大小为1 32只,其中独居个体最多,占总观察次数的6 8 31% ;2只群次之,占31 15 % ;3只群最少,占0 5 5 % ;没有观察到3只以上的群     

黑麂（Muntiacus crinifrons）3个种群的遗传多样性

黑麂,为我国特有动物,被公认为目前世界上最珍稀的鹿科动物之一.为了更好地保护黑麂这一珍稀的濒危野生动物,基于黑麂线粒体控制区序列对遂昌分布中心的3个黑麂种群的遗传多样性和基因流进行了研究.结果显示,3个种群的36个个体中有13个变异位点,占分析序列长度的2.71%,且这13个变异位点皆为碱基置换,并未出现碱基插入或缺失的现象,并由此定义了12个单倍型.遗传多样性检测结果显示遂昌种群具有最高的遗传多样性,应予以优先保护.从Tajima′s D和Fu and Li′s D值的估算结果来看,这3个黑麂种群相对于中性进化的歧异度并没有明显的偏离(P＞0.1),没有明显的证据显示这3个黑麂种群间存在很强的平衡选择.3个种群间基因流 Nm均大于1,这3个黑麂种群间存在着较为丰富的基因流.3个黑麂种群单倍型间的序列差异为0.009,这表明这3个黑麂种群的单倍型未出现分化.     

Identification of black muntjac (Muntiacus crinifrons) in Tibet, China, by cytochrome b analysis

Full cytochrome b gene sequence of mtDNA was used to identify and analyze four skin samples collected from Tibet, China in this research. By searching for highly similar sequences (megablast) on NCBI, we found all four samples have the highest similarities with the published sequence: AY239042 of the black muntjac (Muntiacus crinifrons). By comparing our sequences to those available on GenBank, all four samples were identified as the black muntjac (Muntiacus crinifrons) by high sequence similarity. We therefore record two new localities for the black muntjac and it is a new distribution in Tibet and hope this study will not only promote more advanced researches on the evolution and phylogeny about this species, but also enhance the conservation work for this species and local biodiversity.     

麂属(Muntiacus)动物MDR-1基因序列分析及其分子进化关系

对麂属（Muntiacus)中的3种动物：赤麂（M.muntjak)(2n-6♀,7♂）,小麂（M.reevesi)(2n=46),黑麂（M.crinifrons(2n=8♀,9♂）MDR－1基因（multidrug resistance,多药耐药基因）726bp左右的片段进行了序列分析并根据序列信息建立分子系统树,同时探讨了这3种动物的起源,分类地位及进化关系。     

麂属(Muntiacus)动物线粒体12S rRNA、细胞色素b基因和多药耐药基因序列分析及其分子进化关系

对麂属（Muntiacus)中的3种动物：赤麂（M.muntjak)(2n=6♀,7♂）,小麂（M.reevesi)(2n=46),黑麂（M.cri.nifrons)(2n=8♀,9♂）线粒体DNA 12S rRNA和细胞色素b基因784bp左右的片段和核基因－多药耐药基因（multidrug resistance,MDR1)的728bp左右的片段进行了序列分析,并根据序列信息建立了分子系统树,同时探讨了这3种动物的起源,分类地位及进化关系。     

赤麂线粒体全基因组的序列和结构

提取赤麂细胞株总DNA,参照我们实验室已测定的同属动物小麂线粒体全基因组序列设计引物,PCR扩增、测序、拼接,获得赤麂线粒体全基因组序列并进行生物信息学分析。赤麂线粒体全基因组序列全长16354bp。定位了22个tRNA基因、2个rRNA基因、13个蛋白编码基因和1个D-loop区。赤麂与小麂及其它哺乳动物线粒体的基因组结构相同,它们的序列同源性都较高。     

麂属(Muntiacus)的分类及其系统发育研究

麂属(Muntiacus)是一群中小型草食有蹄类,为东洋界的特有属,是典型的热带、亚热带类群。在我国,麂属的分布仅限于长江流域及其以南各地,为我国南方的重要毛皮兽。 以往对麂属的研究多限于一般的形态分类,对其系统发育尚未深入研究。在种级分类上至今还存在一些混乱现象。本文试图用分支系统学(Cladistics)的方法,对麂属的种级分化进行系统整理,并对其系统发育作一初步探讨。     

Camera trap reveals the co‐occurrence patterns of two sympatric muntjac species in southern Anhui Province,China: No spatial segregation

The competitive relationship and coexistence pattern among close related species have long been one of the hot issues in ecological research. Interspecies interactions can exert important influences on the local distribution of rare species. Black muntjac Muntiacus crinifrons is an endemic species to eastern China, currently restricted to limited regions. In contrast, Chinese muntjac Muntiacus reevesi is the most common and widespread deer in southern China. Both species co‐occur in southern Anhui and western Zhejiang Province. Little is known about the interaction of these two sympatric‐related species. In this study, to investigate the site use determinants and co‐occurrence pattern of the two sympatric muntjac species, we conducted a camera trap survey across about 250 km² in mountainous area of southern Anhui Province, China. We adopted a multistep approach to incorporate habitat preferences while modeling occupancy and detection. We found that the two species did not separate along elevation gradient (range from 400 m to 1,400 m) as described in previous studies. Results of single‐species occupancy models indicated that elevation had positive effects on the site use of both species, while slope had an opposite influence on their site use. Positive effects of elevation on the site use implied that both species try to avoid human interference at low elevations. Significant negative effect of slope on the site use of black muntjac suggested that the species prefer habitat with gentle slope and avoided steep. Co‐occurrence models and species interaction factors provided evidence that the two muntjac species had an independent occupancy (ψ ^{BM CM} = ψ ^{BM cm}, SIF = 1) and exhibited a positive species interaction in detection probability (p ^BM < r ^{BM CM}). Combined with the results of previous studies, we suggested that it was fine differentiation in microhabitats and food resources utilization rather spatial or temporal segregation that allowed the two species co‐occurrence. The site use determinants revealed in our study would be useful for the habitat conservation and restoration for the rare black muntjac, and the co‐occurrence pattern of the two sympatric muntjac species could provide useful information for deep understanding of the coexistence mechanism among forest‐dwelling ungulates.     

小麂一新亚种——江口亚种(偶蹄目,鹿科)

采自贵州梵净山地区（东经１０７°４３′～１０９°２３′;北纬２７°２０′～２８°３５′）的一种小麂,因其外形、量度、毛色及头骨等形态有一些特异之处,尤其在耳长、后足长、鼻骨长的量度与指名亚种（Ｍｕｎｔｉａｃｕｓｒｅｅｖｅｓｉｒｅｖｅｓｉ）存在明显差异。据此认为梵净山地区所产的小麂为一新亚种,定名为江口亚种（Ｍｕｎｔｉａｃｕｓｒｅｖｅｓｉｊｉａｎｇｋｏｕｅｎｓｉｓｓｕｂｓｐ．ｎｏｖ．）。