基于红外相机技术的黑麂活动节律

动物的活动节律是行为生态学中的一个重要内容,它主要研究动物在不同时间内的活动强度及变化规律(原宝东和孔繁繁,2011).黑麂(Muntiacus crinifron)隶属偶蹄目(Artiodactyla)鹿科(Cervidae)麂属(Muntiacus),属国家一级保护动物,其分布范围十分狭小,目前该种群仅存于安徽、浙江、江西和福建4省,且栖息地成小种群岛屿状分布(盛和林,1987).     

黑麂(Muntiacus crinifrons)栖息地片断化对种群基因流的影响

栖息地片断化可能影响种群的基因流,进而导致近交,降低个体生活力,是生物多样性丧失和物种绝灭的主要因素.被列为国家I级保护动物的黑麂(Muntiacus crinifrons),由于自身目前的濒危状况和生物学特异性,使得栖息地片断化对其影响更甚.为了更好的保护该珍稀物种,研究运用地理信息系统划分了浙江遂昌的九龙山自然保护区和开化的古田山自然保护区黑麂栖息地的片断化斑块,并通过所得片断化斑块数据进行两个保护区在片断化程度的计算,同时从片断化斑块获取黑麂的组织、粪便样品,提取黑麂的线粒体DNA,估算其基因流大小.以此初步确定两个保护的黑麂栖息地片断化程度对种群基因流的影响.各项片断化指数均表明,九龙山自然保护区的黑麂栖息地片断化程度要小于古田山自然保护区.九龙山自然保护区黑麂片断化种群的平均基因流Nm达到了3.65,明显高于古田山自然保护区的1.12.结果表明,栖息地片断化可能对黑麂种群的基因流产生了一定的影响.应及时采取有效措施保护和恢复黑麂栖息地,否则将严重阻碍片断化种群间的个体迁移、扩散和基因交流.     

浙江黑麂栖息地评价及保护对策

运用地理信息系统技术,在分析黑麂栖息地的地形、植被、水系和人为干扰等地理特征的基础上,系统研究九龙山和古田山自然保护区黑麂栖息地分布、栖息地质量与空间格局。结果表明,在九龙山自然保护区有黑麂潜在栖息地3172．6hm^2,由于人类活动的影响导致栖息地丧失501．5hm^2,目前尚存的黑麂适宜栖息地2671．1hm^2。它们主要分布于上寮坑、九龙山、内北坪、外九龙和大岩前附近区域。古田山自然保护区有黑麂潜在栖息地4635．75hm^2,在人类活动影响下丧失栖息地1118．11hm^2,目前尚存的黑麂适宜栖息地3517．64hm^2。它们主要分布于青尖、古田山、巧观尖、催顶尖附近区域。目前九龙山和古田山自然保护区内的黑麂栖息地基本上处于多斑块破碎化状态。为了使黑麂能得到更好的保护,对这两个研究区域黑麂栖息地的恢复和重建工作亟待加强。     

中国特产动物——黑麂

黑麂(Muntiacus crinifrons),俗称青麂、红头青麂、蓬头麂。自1885年以宁波产命学名后,直到本世纪五十年代,仅在浙江宁波和桐庐获得3个标本。2个保存在英国自然博物馆,1个存放于美国自然博物馆(Allen,1940)。对其分布范围、生态和习性、繁殖和种群情况几乎一无所知。国际自然和自然资源保护联合会(IUCN)的红皮书将其归入未定种(Goodwin & Holloway,1972)。六十年代和七十年代,我们对黑麂进行全面调查(盛和林等1975,1980,1981,1984)。1984—1985年又对其相对密度     

浙江清凉峰国家级自然保护区黑麂和小麂潜在适宜栖息地预测及重叠性分析

对保护区内的关键种开展保护工作时,其同域分布相似种的保护研究也具有重要价值。较大地理尺度上看,黑麂的分布区被小麂完全覆盖,如能掌握二者适宜栖息地的重叠状况,揭示其共存机制,将有助于保护策略的制定和整合管理。2017—2020年在浙江清凉峰国家级自然保护区利用红外相机技术分别获得黑麂和小麂的分布位点38个和101个,结合8个环境因子,采用MaxEnt模型对研究区域内黑麂和小麂的潜在适宜栖息地进行了预测和重叠性分析。结果表明：(1)黑麂和小麂潜在适宜栖息地主要位于龙塘山区域西南部,千顷塘区域中部和顺溪坞区域西北部,以及千顷塘区域与龙塘山区域间的山脉和顺溪坞南部山区,二者的潜在适宜栖息地面积分别586.66 km²和661.93 km²,分别占研究区域的36.67%和41.37%。(2)黑麂和小麂的生态重叠指数较高,其D值和I值分别为0.82和0.97,它们的总适宜栖息地重叠面积为435.39 km²,分别占黑麂和小麂总适宜栖息地面积的72.22%、65.78%。(3)黑麂和小麂对环境因子的选择相似,黑麂主要选择海拔较高、离水...     

黑麂掠影

<正>黑麂是是麂类中体型较大的物种,为国家Ⅰ级重点保护野生动物,同时也是CITES附录Ⅰ物种,世界自然保护联盟(IUCN)将其列为易危种。黑麂属典型的亚热带森林动物,喜栖息于海拔500米以上的山地常绿阔叶林及常绿和落叶阔叶混交林中,较其他麂类对生境要求更高,对人类活动和栖息地质量更为敏感。也正因此,该物种目前的分布范围狭窄,主要分布     

一种鹿科动物标本的分子鉴定

中国是世界上鹿科动物资源最丰富的国家之一,共有18种,分属獐亚科、麂亚科、鹿亚科和美洲鹿亚科,占全球鹿种的41.7％(盛和林等,1992).在皖南分布的鹿科动物有梅花鹿华南亚种(Cervus nippon pseudaxis)、黑麂(Muntiacus crinifrons)、黄麂(Muntiacus reevesi)和毛冠鹿(Elaphadus cephalophus)(王岐山,1990).2001年11月从泾县获得一具标本(图1-A,标本现保存于安徽师范大学标本馆),体形及大小似梅花鹿,身体背部毛棕褐色,无明显白斑,尾背面黑色、腹面纯白,但鹿角主干表面光滑,无眉叉及其它分叉.鹿角是鹿科动物所特有的结构,是区别于其它有蹄类的标志之一.     

九龙山保护区黑麂栖息地选择的季节变化

2005年7月至2006年6月,以浙江省九龙山国家级自然保护区上寮坑保护站为中心,在其周围随机设置6条样线,每隔200m地面距离设置固定样方,共设定442个20m×20m的固定样方,并在其中设置灌木测量样方442个,草本植物盖度测量样方2210个。分春、夏、秋、冬4季记录样方的植被类型、乔木盖度、灌木盖度、草本盖度、坡位、坡度、坡向、食物丰富度、海拔、人为干扰距离和水源距离等11类生态因子,并用痕迹法检查样方是否被黑麂利用。通过Vanderloeg选择系数(Wi)和Scavia选择指数(Ei)研究影响黑麂栖息地利用和选择性的各生态因子,并采用主成分分析的方法研究影响黑麂栖息地选择的关键因子,得到了黑麂栖息地选择的主要特征及其季节变化。结果表明:黑麂总体上倾向选择在针阔混交林、乔木盖度60%-80%、灌木盖度中等(20%-60%)、草本盖度中等(20%-60%)、食物丰富度高(68%)和人为干扰距离远的生境,对海拔高度和坡位的选择表现出季节迁移性。     

钱江源国家公园体制试点区功能分区对黑麂保护的有效性评估

功能分区是统一协调国家公园不同保护管理目标的主要措施, 对于国家公园的有效管理有重要意义。钱江源国家公园是我国首批国家公园体制试点区之一, 被分为核心保护区、生态保育区、游憩展示区和传统利用区4个部分, 对应不同的保护管理措施。本研究分析了钱江源国家公园体制试点区现有功能分区与其首要保护对象黑麂(Muntiacus crinifrons)的适宜栖息地之间的空间关系。在红外相机调查获取的94个黑麂分布点的基础上, 结合海拔、地形、植被特征、人为活动干扰等15个环境特征变量, 采用MaxEnt模型预测国家公园内黑麂适宜栖息地的空间分布。结果表明, 黑麂倾向于出现在森林较为原始和道路密度较低的区域, 其适宜栖息地面积42.5 km ², 占国家公园总面积的16.9%。其中, 69.3%的黑麂适宜栖息地位于核心保护区, 30.4%位于生态保育区, 表明国家公园现有功能分区能很好地满足黑麂栖息地保护的需求。此结果也证明黑麂可以作为其分布范围内保存较好的亚热带森林生态系统的指示性物种。通过生境恢复、廊道建设和跨省共建促进黑麂栖息地的完整性保护, 是加强该区域黑麂栖息地保护的关键措施。     

同域分布的黑麂和小麂的时空生态位分化

生态位分化是解释物种共存的重要理论。Schonenr认为空间维度对生态位差异形成的影响程度最高,营养维度次之,时间维度则最后被启动。为验证这一假说,我们于2018年12月至2019年11月,在浙江清凉峰国家级自然保护区龙塘山区域采用公里网格法布设52台红外相机,对同域分布且食性相似的黑麂和小麂种群进行监测,计算平均拍摄率,分析不同季节黑麂和小麂对不同植被类型、海拔、坡位、水源距离的选择差异,并运用核密度估计法分析二者日活动节律及重叠程度。结果显示,(1) 黑麂和小麂对空间生态位的选择出现分化：黑麂偏好针阔混交林,主要栖息于1 301 ~ 1 500 m的高海拔地区,回避下坡位和谷地,在距离水源较近的区域内活动频繁;小麂则偏好落叶阔叶林,主要栖息于901 ~ 1 100 m的中海拔地区,偏好中坡位,回避谷地,对水源距离没有明显的选择倾向。(2) 黑麂和小麂均为晨昏性活动的昼行性动物,二者全年日活动节律重叠程度较高 (Δ4 = 0.86),仅冬季较低 (Δ1 = 0.65)。上述结果支持Schonenr的假说：首先,空间维度对物种生态位分化的影响大于时间维度,龙塘山区域黑麂和小麂主要通过选择不同的栖息地来增加空间回避,降低二者的竞争;其次,这种模式存在季节差异,冬季由于可利用的资源减少,竞争加剧,二者通过调整日活动节律,增加时间生态位分化程度,从而实现同域共存。     

麂属动物陈旧皮张标本的DNA提取及PCR扩增

本实验用改进的方法从保存于标本馆的动物皮张标本中提取ＤＮＡ,所得ＤＮＡ片段的分子量从１００ｂｐ到１ｋｂ以上。利用线粒体ＤＮＡ细胞色素ｂ通用引物和ＰＣＲ技术,从小麂、印度麂、贡山麂、费氏麂、黑麂ＤＮＡ中扩增出３０７ｂｐ的细胞色素ｂ特异片段。用２８种限制性内切酶对从新鲜血样和从陈旧皮张标本中所得扩增片段进行酶切分析,发现只有４个酶在这个片段上有切点,其中ＨａｅⅢ和ＨａｐⅡ的识别位点在各种麂中有所不同。     

Forage and bed sites characteristics of Indian muntjac (<Emphasis Type="Italic">Muntiacus muntjak</Emphasis>) in Hainan Island,China

Microhabitat factors associated with forage and bed sites of Indian muntjac (Muntiacus muntjak) were examined and compared in Hainan Island from 2001 to 2002. Habitat characteristics at forage and bed sites were measured by tracking five radio-collared adult muntjacs (three females, two males) and locating from fresh sign or muntjac flushed during transect surveys. Among six available habitat types, Indian muntjac preferred shrub grassland and thorny shrubland, and used dry savanna in proportion to its availability. Muntjac avoided woods, cultivated grassplot and deciduous monsoon forests. Comparing forage sites with bed sites, food availability was greater at forage sites. For bed sites, taller trees with larger canopies, taller shrubs, denser shrub canopy covers and concealment covers were essential factors. No seasonal difference (wet season vs. dry season) was found in food abundance at either forage sites or at bed sites. During the wet season, canopy closure for both types of sites was higher and at bed sites concealment cover was higher than during the dry season. Principal component analysis indicated that tree height, d.b.h. and maximum canopy diameters were important factors in habitat selection. The different microhabitat characteristics at forage and bed sites can be a clue to understanding the survival strategy of Indian muntjac, a small-bodied ungulate, in savanna woodlands.     

圈养条件下黑麂雄性标记行为与雌性化学信息存留位置的关系

化学物质被认为是哺乳动物标记行为信息传递的主要载体,而标记在鹿科动物的竞争雌性资源中具有重要的作用,因此本文重点对雄性黑麂的化学标记与雌性化学信息存留点的关系进行了行为学研究。观察发现面腺标记(利用额腺和眶下腺)是雌雄黑麂共有的化学标记行为,而行为性排尿和刨地行为(利用蹄腺)则仅为雄性具有的标记行为;躺卧不具有化学标记作用,而排粪在化学标记上的作用则难以确定。同时分析表明,雄性黑麂更倾向于在靠近雌性化学信息存留区的区域进行化学标记,且可能会因竞争压力的增大而扩大领域范围。     

High-density comparative BAC mapping in the black muntjac (Muntiacus crinifrons): molecular cytogenetic dissection of the origin of MCR 1p+4 in the X1X2Y1Y2Y3 sex chromosome system

The black muntjac (Muntiacus crinifrons, 2n = 8[female symbol]/9[male symbol]) is a critically endangered mammalian species that is confined to a narrow region of southeastern China. Male black muntjacs have an astonishing X1X2Y1Y2Y3 sex chromosome system, unparalleled in eutherian mammals, involving approximately half of the entire genome. A high-resolution comparative map between the black muntjac (M. crinifrons) and the Chinese muntjac (M. reevesi, 2n = 46) has been constructed based on the chromosomal localization of 304 clones from a genomic BAC (bacterial artificial chromosome) library of the Indian muntjac (M. muntjak vaginalis, 2n = 6[female symbol]/7[male symbol]). In addition to validating the chromosomal homologies between M. reevesi and M. crinifrons defined previously by chromosome painting, the comparative BAC map demonstrates that all tandem fusions that have occurred in the karyotypic evolution of M. crinifrons are centromere-telomere fusions. The map also allows for a more detailed reconstruction of the chromosomal rearrangements leading to this unique and complex sex chromosome system. Furthermore, we have identified 46 BAC clones that could be used to study the molecular evolution of the unique sex chromosomes of the male black muntjacs.     

Phylogeny ofMuntiacus (Cervidae) based on mitochondrial DNA restriction maps

Mitochondrial DNA restriction maps for 12 restriction enzymes of four species of muntjacs—Indian muntjac(M. muntjak), Gongshan muntjac(M. gongshanensis), black muntjac(M. crinifrons), and Chinese muntjac(M. reevesi)—were compared to estimate the phylogenetic relationships among them. Phylogenetic trees were constructed by both distance and parsimony methods. The two resulting trees share a similar topology, which indicates that the black muntjac and the Gongshan muntjac are closely related, followed by the Chinese muntjac; the Indian muntjac is the sister taxon to all the other muntjacs.     

黑麂和费氏麂四种卫星DNA的克隆特征和染色体定位

近年来,分子细胞遗传学研究已基本证实了染色体的串联融合(端粒-着丝粒融合)是麂属动物核型演化的主要重排方式。尽管染色体串联融合的分子机制还不清楚,但通过染色体的非同源重组,着丝粒区域的卫星DNA被认为可能介导了染色体的融合。以前的研究发现在赤麂和小麂染色体的大部分假定的串联融合位点处存在着非随机分布的卫星DNA。然而在麂属的其他物种中,这些卫星DNA的组成以及在基因组中的分布情况尚未被研究。本研究从黑麂和费氏麂基因组中成功地克隆了4种卫星DNA(BMC5、BM700、BM1.1k和FM700),并分析了这些卫星克隆的特征以及在小麂、黑麂、贡山麂和费氏麂染色体上的定位情况。结果表明,卫星I和IIDNA(BMC5,BM700和FM700)的信号除了分布在这些麂属动物染色体的着丝粒区域外,也间隔地分布在这些物种的染色体臂上。其研究结果为黑麂、费氏麂和贡山麂的染色体核型也是从一个2n=70的共同祖先核型通过一系列的串联融合进化而来的假说提供了直接的证据。     

New evidence for tandem chromosome fusions in the karyotypic evolution of Asian muntjacs

A clone of highly repetitive DNA, designated C5, was isolated from DNA of female Chinese muntjac cells. The nucleotide sequence of this clone is 80%–85% homologous to that of the satellite IA clone and other highly repetitive DNA clones previously obtained from the Indian muntjac. Using C5 as a probe for in situ hybridizations to chromosome preparations of cells of both the Chinese and Indian muntjacs, we were able to show that these repeated sequences occur in centromeric heterochromatin of the chromosomes of both Chinese and indian muntjac species. More significantly, non-random clusters of hybridization signals were detected on the arms of chromosomes of the Indian muntjac. These latter hybridization sites are postulated to be regions of interstitial heterochromatin and could be the remnants of centromeric heterochromatin from ancestral Chinese muntjac chromosomes. Our observations provide new supportive evidence for the tandem chromosome fusion theory that has been proposed for the evolution of the Indian muntjac karyotype.by P.B. Moens     

Predicting spacing behavior and mating systems of solitary cervids: a study of hog deer and Indian muntjac

This study investigates the validity of current theory for predicting ecological and allometric effects on space use, social structure and mating systems of poorly known solitary cervids, based on a comparative analysis of radio-telemetry data on hog deer Axis porcinus (N=32) and Indian muntjac Muntiacus muntjak (N=28). The larger and sexually size-dimorphic hog deer inhabit highly productive alluvial floodplains, where resource distribution is patchy and spatiotemporally unpredictable. As predicted for this species, site fidelity was low and range sizes varied among sex and age groups and among seasons. Hog deer were probably non-territorial, as home range sizes seemed too large to be exclusive when taking into account their high population density. Extensive movements of adult males during the rut implied "roaming" as a mating strategy. The smaller, forest-dwelling and sexually size-monomorphic muntjacs inhabit a more uniform and stable habitat. As predicted, muntjacs exhibited higher site fidelity than hog deer, and no seasonal variations in home range sizes. Adults exhibited relatively large home range overlap, both inter- and intrasexually. Hence, strict territoriality did not occur, but their well-defined home ranges and high site fidelity indicated some form of site-specific dominance. In conclusion, habitat characteristics were appropriate predictors of home range sizes and site fidelity. Body mass appeared to be a suitable predictor of intraspecific patterns in space use but a poor predictor of interspecific patterns, probably due to a confounding effect of habitat productivity.