四川贡嘎山地区杜鹃属的地理分布及区系组成

贡嘎山地区位于青藏高原的东南缘,横断山系的东北段,现有杜鹃属植物73种4变种2亚种。在贡嘎山地区东坡的不同垂直高度上分布有43种(包括变、亚种)杜鹃,西坡则分布有63种(包括变、亚种)。贡嘎山地区杜鹃属植物的区系组成属于泛北极植物区,大致分为:1、中国-日本森林植物亚区,只有1种杜鹃。2、中国-喜马拉雅森林植物亚区,有78种(包括4变种, 2亚种),其中(1)1种分布于西藏、云南,并经云南入缅甸分布;(2)44种为四川特产;(3)5种为贡嘎山地区特有种。另外,贡嘎山地区杜鹃属植物区系还有其特点:1、贡嘎山地区是杜鹃属植物分布中心之一;2、贡嘎山地区是杜鹃属植物分化中心之一;3、贡嘎山地区杜鹃属植物有垂直替代现象。     

Notes on the Orchid Flora in the Hengduan Mountain Region,China

The Hengduan Mountain Region on the south-eastern fringe of the Qinghai- Xizang (Tibet) Plateau is located in W. Sichuan, N. W. Yunnan and E. Xizang, with a wide area of juxtaposition from the east to the west, the mountains extending and the rivers flowing from the north to the south. In this paper it covers an area from Daojie, Wayao, Yingping, Yangbi, Dali of Yunnan and Dukou of Sichuan in the south, to Banbar, Dengqeu, Shenda of Tibet and Serxu, Dainkog, Shuajingsi and Nanping (Jiuzhaigou) of Sichuan in the north, and from Lharong, Baxoi and Zayü of Tibet in the west, to Maowen, Wenchuan, Mt. Erlang, Mt. Emei and Xichang of Sichuan in the east (Fig. 1.). The Gongga Mountain is the highest in the region, its summit being at an altitude of 7556m, whereas the Dadu River Valley in the eastern part of the area is only 1150 m above sea level. Therefore, the relative height is about 6400 m in the region. The Hengduan Mountain Region is well-known for its various topography, complex natural conditions and rich flora. The floristic composition and features of orchids in Hengduan Mountain Region. 1. The species of orchids are abundant in the region. As we know so far, orchids in the Hengduan Mountain Region comprise 91 genera and 363 species with 9 varieties, and thus it is one of concentration centres of orchids in China, making up 56.17% of the total number of orchids genera in China, only less than in Yunnan and Taiwan, and 34.87% of the total number of orchids species in China, only less than in Yunnan and Sichuan. 2. The orchids genera in the Hengduan Mountain Region are complex in geographical components as indicated below: (1) Four geneva are endemic to China and one of them is endemic to the region. (2) Fourteen genera are of the north temperate distribution pattern, 2 of the Old World temperate one, 18 of the East-Asian one (including Sino-Himalayan and Sino-Japanese) and 3 of the East-Asian-North American one. (3) Twenty one genera belong to the tropical Asian distribution pattern, 3 to the tropical Asian-tropical African one, 13 to the tropical Asian-tropical Australian one, 1 to the tropical Asian-tropical South American one, 8 to the Old World tropical one and 2 to the pantropical one. (4) Two genera are cosmopolitan. The analysis of genera: Fourty eight genera (containing 151 species with 4 varieties) of the tropical distribution occur in the region, among which Calanthe and Cymbidium distributed in the temperate region, and Bulbophyllum and Peristylus in the subtropical part of China are comparatively abundant (with over 10 species), but the other 25 genera are monospecific and 11 genera each contain only 2-3 species. Some epiphytic genera mainly distributed in tropical Asia and belonging to tropical florestic elements, such as Vanda, Luisia, Schoenorchis, Flickingeria, Monomeria, Kingidium, Acampe, Phalaenopsis, Thrixspermum, Eria, Taeniophyllum, and terrestrial genera, such as Aphyllorchis, Collabium, Mischobulbum, Paphiopedilum, Thunia, Brachycarythis, Satyrium, Corybas, Geodorum, Zeuxine, Tropidia, have the Hengduan Mountain Region as the northern limit of distribution. Of 151 species with 4 varieties, 41 species with 4 varieties are endemic to China, and 14 species with 3 varieties of them are endemic to the area, making up 3.86% of the total in the region under discussion. There are 41 genera (containing 189 species with 5 varieties) of the temperate distribution, which occur in the region. Among them Platanthera (22 species with 1 variety), Cypripedium (17 species), Herminium (16 species), Amitostigma (15 species with 1 variety), Orchis (12 species), Hemipilia (8 species with 1 variety), Neottianthe (4 species), Gymnadenia (4 species), Diphylax (3 species), Bletilla (3 species), have the Hengduan Mountain Region as the distribution centre and differentiation centre. Among the 189 species with 5 varieties, 111 species with 5 varieties are endemic to China, and 54 species with 5 varieties are endemic to the area, making up 14.88% of the total of orchids in the Hengduan Mountain Region. Although the number of temperate distribution genera is smaller than that of tropical distribution ones, several points may be mentioned: (1) The Hengduan Mountain Region is distribution centre and differentiation centre of a number of temperate genera in China, and is the northern limit of many genera mainly distributed in the tropics. (2) The number in the former category is obviously larger than that in the latter. (3) Endemic species in the former category in the area are over three times as many as those in the latter. The differentiation of species of the temperate distribution genera is obviously stronger than the tropical ones, which characterizes the orchid flora in the area as the temperate one. The life forms of genera. The orchid flora in the Hengduan Mountain Region so far known comprises 91 genera, among which 51 are terrestrial, 32 epiphytic and 8 saprophytic, thus with the terrestrial one dominant. The analysis of species: The orchid flora in the Hengduan Mountain Region so far known comprises 363 species with 9 varieties. Their distribution patterns and floristic components, to which they belong, are indicated as follows: (1) Fifty four species, belonging to 33 genera, are widespread, covering the whole East Asian Region, but 6 of them are endemic to China. (2) Forty four species, belonging to 27 genera, are the elements of the Sino-Japanese Subregion, but 22 species of them are endemic to China. (3) One hundred and ninety five species with nine varieties, belonging to 53 genera, are the elements of the Sino-Himalayan Subregion under discussion: (A) Four species (i.e. Aphyllorchis alpine, Listera divaricata, L. pinetorum and Oreorchis micrantha) are distributed in the Himalayan Region and S. E. Xizang (Tibet), western part of this region. (B) Twenty five species, belonging to 17 genera, are distributed in N. W. Yunnan and the Himalayan Region (Appendix, 1.). (C) Sixteen species, belonging to 11 genera, are distributed in the Himalayan region and W. Sichuan. Among them 6 species occur only with Mt. Emei as the easternmost limit and 10 species occur in the region west of Mt. Emei. (D) Ten species, belonging to 9 genera, are distributed in the Himalayan region, this region and S. Shaanxi, S. Gansu or S. E. Qinghai. (E) Eight species, belonging to 6 genera, are distributed in the Himalayan region and this region. Among them 6 species have their range extending eastwards to Guizhou and 2 species eastwards to Guangxi. (F) Five species, belonging to 5 genera, having their range extending from this region southwards to N. Burma. (G) One handred and twenty seven species with nine varieties are endemic to China behind discussion. (4) (A) Three species (i.e. Anoectochilus moulmeinensis, Bulbophyllum forrestii and Liparis chapaensis) are distributed in Indo-China, Burma and the region. (B) Nine species, belonging to 7 genera, are distributed in Indo-China, N. E. India and this region. (C) Forty six species, belonging to 21 genera, are distributed in Indo-China, the Himalayan Region and this region (Appendix, 2.). (D) Twelve species, belonging to 11 genera, are distributed in Indo-China and this region (Appendix, 3.) 3. The vicarism is obvious in the orchid flora of the Hengduan Mountain Region. There are 10 species-pairs (in genera Calanthe, Tropidia, Anoectochilus, Mischobulbum, Bulbophyllum, Gymnadenia, Pogonia, Tipularia, Tulotis, Orchis, etc.) of the horizontal vicarism and 7 species-pairs (in genera Epigeneium, Epipogium, Platanthera, Pogonia, etc.) of the vertical vicarism in the region. 4. The endemic species are prolific in the region. In the orchid flora of the Hengduan Mountain Region there are 155 species and 9 varieties endemic to China: (1) Six species are widespread in the whole East-Asian Region. (2) Twenty two species are the elements of the Sino-Japanese Subregion. (3) One hundred and twenty seven species with nine varieties are the elements of the Sino-Himalayan Subregion. Among them 69 species with 5 varieties are endemic to the region (Appendix, 4.), making up 19% of the total in the region; other 58 species with 4 varieties are distributed in the region and neighbouring regions or provinces of it (Appendix, 5.). 5. Remarkable differentiation of the orchid flora in the Hengduan Mountain Region is shown by evident vicarism and abundance of endemic elements, exampled by Amitostigma, Herminium, Orchis, Cypripedium, Platanthera, etc. and one group of Platanthera, which is confined to the south fringe of the Xizang (Tibet) Plateau-Hengduan Mountain Region. The group consists of 12 species, of which one (P. edgeworthii) is distributed in the Western Himalayas from Hazara in Pakistan to Kumaun in India, and all the other 11 species (i.e.P. stenantha, P. bakeriana, P. roseotincta, P. deflexilabella, P. longiglandula, P. exilliana, P. chiloglossa, P. leptocaulon, P. platantheroides, P. clavigera and P. latilabris) occur in China, with 3 of them (i.e.P. deflexilabella, P. longiglandula and P. chiloglossa) endemic to China. According to their structure of gynostemum and form of labellum they belong to Platanthera without question, although they are different from the other members of Platanthera in stigma convex (not concave) and sepals mammillary-ciliate, stigma exhibits a series of evolutionary trends in part of species, from stigma single, convex, elliptic and located near rear of spur mouth (in P. stenantha) to stigma single, suddle, and located near front of spur mouth (in P. bakeriana) and to stigma double, separate and located at front of spur mouth in the other ten species. The group in Platanthera is only confined to the area from the south fringe of the Xizang (Tibet) Plateau to the Hengduan Mountain Region. It seems that the genus has been affected by intense lift of the area, causing variation and differentiation and giving rise to the group due to the long-term natural selection. Mt. Emei in Sichuan Province is the eastern limit of distribution of the group, where there are three spcies, among which two (P. deflexilabella and P. longiglandula) are endemic to the mountains. In addition, among Risleya (1 species), Diphylax (3 species) and Diplomeris (2 species), three genera typical of distribution in the Sino-Himalayan Subregion, Risleya and Diphylax have Mt. Emei as their eastern limit. Eleven species, belonging to elements of the SinoJapanese Subregion, occur only from Japan to Western Sichuan with Mt. Emei as the western limit. Among nine species, belonging to elements of the Sino-Himalayan Subregion, six occur from the Himalayas to W. Sichuan and three of them are endemic to the Hengduan Mountain Region, with Mt. Emei as their eastern limit of distribution. There are eight endemic species and one variety of orchids in Mt. Emei, making up about 11.59% of the total endemic species in the Hengduan Mountain Region. Orchid floristic elements in Mt. Emei are obviously different from those in Mt. Jinfo, the former being mainly of the Sino-Himalayan Subregion, while the latter being mainly of the Sino-Japanese Subregion. From the distribution patterns of the orchid floristic elements in the Hengduan Mountain Region and Eastern China, the Emei Mountain is considered important for drawing a boundary line between the Sino-Japanese Subregion and the Sino-Himalayan Subregion. The discussion may be summarized as follows: the floristic features of the orchid flora in the Hengduan Mountain Region are: (1) rich in species, complex in geographical components, eminent vicarism and differentiation, and prolific in endemic species; (2) terrestrial life form is dominant one; (3) mainly consisting of temperate and subtropical East-Asian elements, es pecially, elements of Sino-Himalayan Subregion, though with some tropical elements and elem-ents of other regions.     

贡嘎山石松类和蕨类植物的多样性与海拔分布（附表）

贡嘎山是横断山脉海拔最高的一座大山,是研究山地植物多样性和海拔分布的理想地区。为了探讨贡嘎山地区石松类和蕨类植物多样性组成及海拔分布特点,该研究基于野外考察、标本采集鉴定及文献考证,对贡嘎山地区石松类和蕨类植物进行统计和分析。结果表明:(1)贡嘎山地区有石松类植物3科4属25种,蕨类植物有23科56属291种。(2)主要的珍稀濒危植物有6种,分别是高寒水韭(Iso tes hypsophila)、松叶蕨(Psilotum nudum)、桫椤(Alsophila spinulosa)、小叶中国蕨(Aleuritopteris albofusca)、玉龙蕨(Polystichum glaciale)和扇蕨(Lepisorus palmatopedatus)。(3)优势科为鳞毛蕨科(Dryopteridaceae)75种、水龙骨科(Polypodiaceae)56种、凤尾蕨科(Pteridaceae)54种和蹄盖蕨科(Athyriaceae)37种;优势属为耳蕨属(Polystichum)45种、鳞毛蕨属(Dryopteris)24种、蹄盖蕨属(Athyrium)24种和瓦韦属(Lepisorus)19种。(4)区系以温带成分为主,有286种(93.77%)。随着海拔的上升,石松类和蕨类的物种多样性逐渐增加,2000~3000 m海拔段的物种多样性最高,为20科46属192种,3000 m以上物种多样性逐渐下降,4500 m以上仅分布有4种蕨类植物。此外,该研究还发现,随着海拔的升高,中国-喜马拉雅成分逐渐增加。     

西北地区木本植物区系多样性研究

西北地区在中国植物区系上属于泛北极植物区,其南部基本上控制在中国-日本植物亚区的华中地区内,区系成分以北亚热带成分占优势,中、东部主要控制在中国-日本植物亚区内的华北地区中的黄土高原地区内,以华北区系成分占优势,西南部主要属青藏高原植物亚区和中国-喜马拉雅植物亚区,区系成分以唐古特和横断山区系成分占优势,北部主要是亚洲荒漠植物亚区,区系成分是以古地中海成分占优势。本区有木本植物(不包括栽培植物)103科338属1729种(含种下等级),其中裸子植物6科17属57种,被子植物97科321属1672种,另外,具有中国特有属26个,土著特有种173个(含种下等级)。大科、大属在区系组成中起着非常重要的作用,该区木本植物区系包含有15个分布区类型及其17个变型,其中北温带分布、泛热带分布、东亚至北美间断分布、东亚分布等成分占有重要地位。其木本植物区系的主要特征为:种类比较丰富;分布不均,区域差异大;地理成分复杂,具有明显的温带性质;起源古老;土著特有种较多;区系联系广泛,多种区系成分的汇集、混杂和过渡。     

贡嘎山地区主要植被类型的分布

贡嘎山位于青藏高原东南缘横断山系大雪山脉中段,主峰海拔高7556m。该地区有维管束植物185科,869属,约2500种。其植物区系特点为：区系成分起源古老;物种分化显著,特有种丰富;成分复杂,地理替代明显。贡嘎山主要植被类型有：冷杉、云杉组成的亚高山针叶林;松、铁杉组成的中山针叶林;松、杉、柏、油杉组成的低山针叶林;铁杉、桦木、槭树组成的针叶,阔叶混交林;樟、楠、阔楠、石栎,青冈等组成的常绿阔叶林;栎、桦、槭、杨、桤等组成的落叶阔叶林;高山栎类组成的硬叶常绿阔叶林;杜鹃、柳、圆柏等组成的高山灌丛;仙人掌(Opuntia monacantha)、金合欢、羊蹄甲等组成的河谷灌丛;嵩草(Kobresia)、羊茅(Festuca ovina), 韭和风毛菊、绢毛菊、绵参(Eriophyton wallichii)等组成的高山草甸与高山流石滩稀疏植被。贡嘎山地区水平地带性植被为常绿阔叶林,它兼有我国亚热带东部和西部常绿阔叶林的特点。 贡嘎山东坡植被垂直带谱是：1．常绿阔叶林带,海拔1100—2200m。2．山地针叶、阔叶混交林带,2200—2500m。3．亚高山针叶林带,2500—3600m。4．高山灌丛草甸带,2600—4600m。5．高山流石滩稀疏植被带,4600—4900m。6．永久冰雪带,海拔4900m以上。贡嘎山西坡植被垂直带谱是：1．亚高山针叶林带,海拔2800一4000m。2．高山灌丛草甸带,4000—4800m。3．高山流右滩稀疏植被带,4800—5100m。4．永久冰雪带,海拔5100m以上。     

北京松山国家级自然保护区兰科植物多样性及其保护评价

选取北京松山国家级自然保护区开展兰科植物多样性调查和分析,评估其保护现状。松山共有兰科植物12属18种,其中北方盔花兰为北京新记录种。在生活型方面,以地生兰为主,计14种（77．78％）,腐生兰4种（22．22％）;在分布区类型方面,属的区系成分以北温带分布为主（6属,5000％）,兼有旧世界温带分布（3属,25．00％）、世界分布（2属,16．67％）和旧世界热带分布（1属,8．33％）;种的区系成分以东亚分布为主（9种,50．00％）,兼有旧世界温带分布（5种,27．78％）和北温带分布（4种,22．22％）。松山兰科植物集中分布于北沟和小海坨山。通过综合分析松山兰科植物保护现状,提出生境评估、种群动态监测、建立迁地保护资源圃和加大宣传等都是切实加强兰科植物保护工作的可行措施。     

珠穆朗玛峰国家级自然保护区兰科植物多样性研究

在野外实地调查和室内标本整理以及查阅文献的基础上,对珠穆朗玛峰自然保护区兰科植物多样性进行了初步研究。结果表明:珠穆朗玛峰自然保护区有兰科植物35属63种,以陆生兰(42种)为主,附生兰(19种)和腐生兰(2种)也占有一定比例;属的地理成分可划分为10个类型和2个变型,以北温带分布型(33.3%)和热带亚洲分布型(21.2%)为主;种的地理成分可划分为5个类型和1个变型,以中国-喜马拉雅分布型(64.5%)为主;珠穆朗玛峰自然保护区兰科植物区系成分与南迦巴瓦峰地区联系最为密切,其次为九寨沟自然保护区和贡嘎山自然保护区,与秦岭地区和小黑山自然保护区有一定的联系。     

宁夏哺乳动物区系与地理区划研究

宁夏现有哺乳动物75种,隶属于6目19科52属 。本文分析了宁夏哺乳动物区系特征,将宁夏划分为3个动物地理省、6十动物地理州,并对各省及各州动物区系之间的相似性等问题进行了探讨。     

三峡大老岭植物区系的垂直梯度分析

为探讨山地植物区系构成特征及其垂直梯度的生态意义,根据对三峡大老岭地区植被垂直样带 调查获得的植物区系资料,分析了该地区植物区系成分构成的基本特征及其随海拔梯度的变化趋势,寻找了区系平衡点的位置;并利用聚类方法分析了山地气候垂直分异对区系成分构成的影响。结果表明：①大老岭植物区系具有温带性质,但仍反映了与热带区系的历史联系,有强烈的区域性;②属的分布区类型可归为热带分布、温带分布、地中海—中亚中心和东亚中心4组,各组区系成分的垂直梯度特征不同;热带、亚热带成分与温带成分的平衡点大致位于海拔650m;③区系成分构成和属的物种数量构成的聚类分析结果一致显示了植物区系构成与山地气候和植被垂直带相对应的格局。     

井冈山自然保护区野生兰科植物资源分布及特点

通过对江西省井冈山自然保护区兰科(Orchidaceae)植物的调查,分析了保护区内兰科植物的物种多样性、区系特点、分布格局,并采用SPSS18.0软件对井冈山及其邻近保护区属的种类进行相关和聚类分析。结果表明:井冈山兰科植物种类丰富,共有兰科植物34属75种,中国特有兰科植物19种。井冈山兰科植物资源垂直分布格局明显,不同海拔段的兰科植物分布差异较大,中低海拔的物种分布较多,资源相对保存较好;区系成分复杂多样,井冈山兰科植物属的地理成分可以划分为10个类型2个变型,热带性属占优势,占总属数的67.3%,但热带分布的种仅占本地区总种数的37.3%,而温带分布的种却占62.7%,故井冈山自然保护区属热带植物区系与温带植物区系过渡的交汇地带。井冈山兰科植物与齐云山自然保护区的相似性最高,与武夷山自然保护区的相似性最低。     

藏南布丹拉山南坡种子植物区系海拔格局分析

生态群落交错区通常因物种丰富、区系成分复杂而被视为关键带.藏南布丹拉山处在半湿润向半干旱的生态环境过渡带上,因其特殊的自然地理环境而有着丰富的山地植物多样性,但这一重要生态过渡区的种子植物组成和区系成分海拔分布格局目前尚缺乏了解.为了理清布丹拉山南坡种子植物区系成分及其垂直分布变化格局,该文通过野外植物群落的样方调查、...     

罗霄山脉兰科植物区系及其生态地理学特征

通过对罗霄山脉地区兰科植物的野外调查及文献整理,对该地区兰科植物区系及其生态地理学特征进行研究。结果显示,该地区兰科种类丰富,共有47属124种,其中地生兰、附生兰和腐生兰分别为80、36、8种,占总种数的64.5%、29.0%和6.5%。兰科植物集中分布在海拔400~1200 m,其区系成分复杂,具有较强的热带性质。对该地区兰科植物濒危现状进行了分析并提出了保护建议。本研究对罗霄山脉兰科植物资源的保护和开发利用具有重要意义。     

贡嘎山东坡植物区系的垂直分布格局

为了探讨贡嘎山植物区系的垂直分化特征及其与周边地区植物区系的联系,结合样带法与样方法,对贡嘎山东坡垂直植被带进行了调查,统计得出各垂直植被带的科、属的物种数量,分析了科、属、种级区系成分的构成及其沿海拔梯度的分布格局,并对各垂直植被带区系的相似性进行了聚类分析。结果表明：1)贡嘎山植物区系在整体上具有温带性质,但在干旱河谷地带,热带和温带区系成分的比例相当：热带成分的构成和分布反映古热带和古地中海区系的残遗性影响;2)东亚(含亚型)和东亚-北美成分对贡嘎山中部森林植物区系的影响最大,这些成分以温带古老性质为主;3)北温带成分是贡嘎山植物区系的主体之一,对青藏高原隆升以来贡嘎山植物区系进化类群和特有成分的发展有主要贡献,代表区系的年轻组分;4)中国特有种类型多样,占不同垂直植被带物种数量的40％-65％,其比例随海拔上升而增大。各类型比例的垂直变化突出反映了贡嘎山及横断山脉中海拔地段的植物区系与华中地区的联系,以及高海拔地段与青藏高原及东喜马拉雅的区系之间的联系。本文还就贡嘎山在生物地理分布上的意义以及贡嘎山和横断山脉植物区系特有性的性质进行了讨论。     

豫南鸡公山自然保护区种子植物区系的研究

鸡公山是大别山西部余脉,位于豫、鄂两省的交界线上,为国家级自然保护区和风景区。本文根据该区现代植物分布的科、属、种,作了详细的统计分析,并与其它地区的植物区系成分作了对比研究。其结果表明:①植物种类组成丰富,共计有132科、544属、1161种。②鸡公山(大别山)是华东、华中、华北植物区系的交汇之地,各种成分兼容并存。③该区(大别山)是秦岭以东南北植物分布的天然界线,以此为北界的植物有34属、72种,以此为南界的植物有5属16种。④大别山是中国西南成分、华中成分向华东地区扩展散布的北部通道,鸡公山是这条通道上的一个连接点。     

武陵山区蕨类植物研究

武陵山区蕨类植物资源丰富,现知有644种(包括变种),分属116属, 46科;蕨类区系属热带-亚热带山地类型;属的地理成份有12种类型,与日本、印度-马来西亚有密切关系;武陵山区蕨类区系属我国西南区系,与华中华东区关系密切,华南、华北区次之;蕨类垂直分布分四带。     

贡嘎山蕨类植物区系的特点

贡嘎山蕨类植物区系共含４０科,９３属,３９９种,最主要的是耳蕨属Ｐｏｌｙｓｔｉｃｈｕｍ,鳞毛蕨属Ｄｒｙｏｐｔｅｒｉｓ,蹄盖蕨属Ａｔｈｙｒｉｕｍ以及水龙骨科Ｐｏｌｙｐｏｄｉａｃｅａｅ等系统演化上较高级的类群,所含的种子是喜马拉雅和中国西南当地分化的种;其特有成分多为新特有属,可认为它是随青藏高原隆起而形成的较年青的蕨类区系,热带属在本区数量多而种类少,在山上河可与北温带种类并存。贡嘎山处于蕨类物种东     

中国斑叶蝉族昆虫地理分布格局聚类分析

分析了斑叶蝉族昆虫在中国以及贵州动物地理区的分布情况,探讨其分布格局形成、起源和演化原因。根据中国和贵州斑叶蝉族的地理分布数据,运用MEGA 6.0、SPSS 22.0和ArcGIS 10.2等软件,对斑叶蝉族昆虫的区及亚区分布进行支序聚类分析,结果表明我国斑叶蝉族现代分布中心为西部山地高原亚区、华南区的台湾亚区及滇南山地亚区,分布热点地区为西双版纳地区、海南地区和台湾地区。贵州斑叶蝉现代分布中心为黔东低山丘陵省、黔北中山峡谷省和黔南低山河谷省,分布热点地区为铜仁北部的沿河地区、遵义的务川地区及贵州黔东南州的榕江、雷山地区。斑叶蝉族昆虫中国分布区形成的顺序先是东北区,其次是青藏区和蒙新区,最后是西南区、华北区、华南区和华中区。贵州分布区形成的顺序先是黔西高原中山省和黔中山原丘陵省,其次是黔南低山河谷省,最后是黔北中山峡谷省和黔东低山丘陵省。中国分布区中,B21和B22聚类群属级阶元的相似性最高,区间关联性最强。在贵州分布区中黔东低山丘陵省和黔北中山峡谷省属级阶元的相似性最高,物种交流最为频繁。目前,斑叶蝉族昆虫的地理分布格局主要是历史气候变化、当前气候条件以及植被覆盖等生态环境共同作用的结果;区系起源和演化主要受地质构造运动作用;斑叶蝉在各区的分布相似性可能与气候变化引起的物种由南向北扩散有关。     

广东惠东莲花山白盆珠兰科植物多样性分析

基于野外实地调查和文献记录,分析广东惠东莲花山白盆珠自然保护区的野生兰科植物物种多样性、属种地理分布特点及其种群结构。结果表明,白盆珠保护区野生兰科植物有40种,隶属于27属,包括地生兰26种、附生兰13种和腐生兰1种;以人为干扰较少的山林和溪谷沟边较为丰富。白盆珠保护区兰科植物属和种的地理成分均以热带亚洲分布成分为主,与邻近地区七目嶂保护区最为相似,两地的属种相似性系数分别达71.11%和61.11%。此外,调查中发现1个广东省兰科植物新记录种全唇盂兰Lecanorchis nigricans,及深圳拟兰Apostasia shenzhenica 1个新分布点。     

色季拉山区高山寒带种子植物区系研究

通过对西藏色季拉山高山寒带进行实地野外调查,鉴定统计得到种子植物285种,分属于33科103属,其中双子叶植物有26科、77属、236种,裸子植物有1科、1属、4种,中国特有植物125种。对该区域种子植物区系从科、属、种三级水平统计分析,初步探讨了其植物区系的性质和基本特点。地理成分简单,但特有现象明显,在种类上缺乏古老、原始的类型;从科、属和种的分布类型统计分析,基本上都是温带成分,反映出典型的温带区系特征和区系的年青性,因而具有高寒区系的显著特色。在区系成分中存在较多中国-喜马拉雅成分,表明了该区系具有明显的高原及高山植物区系的特色。     

峨眉山蕨类植物区系的初步研究

依据2004~2006年的野外调查和标本馆标本以及文献资料,初步分析了峨眉山蕨类植物区系的地理特征,结果表明:峨眉山共有蕨类植物46科110属425种,优势科为蹄盖蕨科、水龙骨科和鳞毛蕨科,共192种,占总种数45.2%,优势属为耳蕨属、鳞毛蕨属、凤尾蕨属和蹄盖蕨属等;在科、属的水平上,为热带分布型,以泛热带分布为主,而种的地理分布则以温带分布的中国特有和东亚成分占绝对优势,分别为36.5%和32.0%,揭示了峨眉山蕨类植物区系是以温带性质为主的亚热带类型,具有较强的热带亲缘;与大巴山关系密切,和云南哀牢山有一定的联系,而与秦岭、西藏和陕西天华山的关系较为疏远。