陕西延安市区蝶类多样性初探

延安市区有蝶类6科25属36种,其中凤蝶科2属3种;粉蝶科5属8种;眼蝶科3属5种;蛱蝶科7属10种;灰蝶科7属9种;弄蝶科1属1种。陕西省新记录5种。区系分析表明,该地区以广布种为优势种。     

陕西延安北洛河流域蝶类资源调查及区系研究

通过对延安北洛河流域的蝶类资源进行调查,发现该地区共有蝴蝶6科54属75种(凤蝶科2属3种、粉蝶科7属10种、眼蝶科10属13种、蛱蝶科15属25种、灰蝶科11属15种、弄蝶科8属9种),其中34种为单属种,陕西省新纪录5种;区系结构分析表明该地区蝴蝶以古北种为主。标本保存于延安大学生命科学学院标本馆。     

青海湟水流域蝶类

1995～2003年调查并整理分析青海湟水流域的蝶类,有9科52属80种,其中凤蝶科1属2种,绢蝶科1属6种,粉蝶科8属22种,斑蝶科1属1种,眼蝶科12属13种,蛱蝶科15属18种,蚬蝶科1属3种,灰蝶科9属10种,弄蝶科4属5种.以古北界为主,青藏区最为丰富.     

安徽马鞍山地区蝶类资源调查及区系分析

2003~2006年对安徽省马鞍山地区蝶类资源进行调查,经鉴定有69种,隶属于8科50属,分别为凤蝶科6属13种,绢蝶科1属1种,粉蝶科5属7种,眼蝶科4属9种,蛱蝶科10属15种,喙蝶科1属1种,灰蝶科13属14种,弄蝶科8属9种。马鞍山地区蝶类在中国动物地理区划中有20个区系型,以华中-华北区系型所占比例最高,计10种,占14.49%;其次为华中区特有种为9种,占13.14%;马鞍山地区蝶类区系主要以华中区区系为主体。     

浙江雁荡山蝴蝶种类调查初报

初步查清浙江雁荡山境内蝴蝶种类有118种,隶属于9科77属,其中凤蝶科Papilionidae 21种,粉蝶科Pieridae 10种,环蝶科Amathusiidae 1种,眼蝶科Satyridae 15种,蛱蝶科Nymphalidae 34种,珍蝶科Acraeidae 1种,蚬蝶科Riodinidae 3种,灰蝶科Lycaenidae 17种,弄蝶科Hesperiidae 16种;浙江省新记录种7种,新记录属1属.这些蝴蝶分布在雁荡山15037 hm2范围内.     

天祝夏玛林区蝶类区系研究

2008-2010年每年7-9月,在天祝夏玛林区按照不同海拔高度及不同植被类型的自然环境,对蝶类进行了系统的采集,共获得蝶类标本2000号,经整理、鉴定出71种蝶类,隶属于8科50属。其中粉蝶科9属20种,占总种数的28.2%,为优势类群;蛱蝶科15属15种,眼蝶科13属14种,分别占总种数的21.1%和19.7%,为次优势类群;绢蝶科(1属9种)和灰蝶科(8属8种)为常见类群;弄蝶科(2属2种)、凤蝶科(1属2种)和蚬蝶科(1属1种)为罕见类群。区系成分分析结果是,属于古北界的种类有51种,占总种数的71.8%;属于东洋界与古北界兼有种类有14种,占总种数的19.7%;广布种6种,占总种数的8.5%;完全属于东洋界的种类无分布。结果表明,该地区分布的蝶类区系成分以古北界的种类为主。     

江苏徐州相山山地蝶类生态分布及区系研究

江苏徐州相山山地有蝶类7科26属31种,其中凤蝶科5种,粉蝶科7种,斑蝶科1种,眼蝶科1种,蛱蝶科4种,灰蝶科8种,弄蝶科5种,计得江苏省新记录8种。蝶类区系组成中,广布种占48．39％;东洋界种类占22．58％;古北界种类占29．03％。由江苏省六大山地相似度分析,相山山地与方山山地蝶类多样性相似度最高。     

内蒙古黑里河自然保护区蝴蝶种类初报

2004~2006年初步查清内蒙古黑里河自然保护区的蝴蝶种类,隶属于7科,37种,其中凤蝶科Papilionidae 2种、粉蝶科Pieridae 7种、眼蝶科Satyridae 6种、蛱蝶科Nymphalidae 16种、灰蝶科Lycaenidae 2种、弄蝶科Hesperiidae 3种、绢蝶科Parnassiidae 1种。     

横断山区的蝶类资源与珍稀蝴蝶的保护

横断山区的蝶类561种,隶属于12科,208属.在12科中,种类最多的是蛱蝶科148种,其次是眼蝶科117种,灰蝶科65种,凤蝶科63种,粉蝶科60种,弄蝶科60种,蚬蝶科18种,绢蝶科12种,斑蝶科9种,环蝶科6种,喙蝶科2种,珍蝶科1种.分布于横断山区的珍稀蝴蝶有44种,其中国家Ⅰ级保护的1种,Ⅱ级保护的3种.     

带弄蝶属研究(鳞翅目,弄蝶科)

带弄蝶属Lobocla是弄蝶科Hesperiidae 1个小属,目前全世界仅记载7种,中国均有分布.文中对该属进行了总结,记载1新种:四纹带弄蝶Lobocla quadripunctata sp.nov.,同时首次对3种雌性生殖器进行了描记,并编制了所有种的检索表.模式标本保存于华南农业大学昆虫标本室.     

秦岭豆科植物区系特征和生物多样性

豆科是组成秦岭植物区系的四大科之一。计约５１属１７５种,不仅含有大量的草本植物,亦有发育丰富的灌木以及乔木和藤本植物。其中有中国特有种７８种,秦岭特有种２５种,这些豆科植具备了豆不同发育阶段,演化级别的类型,汇聚了温带热带多种地理成分。     

太白山土壤淡色丝孢真菌群落多样性及生态位

从秦岭太白山南、北坡采集的40个土壤样品中分离纯化得到土壤淡色丝孢真菌16属,利用物种丰富度、Shannon-Wiener多样性指数、均匀度、生态位宽度及生态位重叠等指标对太白山南、北坡不同林带土壤淡色丝孢真菌的群落结构进行了研究.结果表明：土壤淡色丝孢菌各物种在南、北坡各林带中的分布具有明显的环境梯度格局.海拔和植物林带类型是决定太白山土壤淡色丝孢菌分布的主要因素.淡色丝孢真菌物种丰富度和多样性指数随着海拔的升高呈明显降低的趋势;群落的均匀度随海拔的升高呈一定的升高趋势,但规律不明显.对淡色丝孢菌各物种的生态位研究结果表明,太白山南、北坡青霉属、曲霉属、轮枝孢属、拟青霉属、枝顶孢属等物种生态位宽度值较大,与其他各属的生态位重叠较高,说明上述各属真菌在太白山南、北坡分布较广泛.而单端孢属、粘帚霉属、绿僵菌属的生态位宽度较窄,与其他各属的生态位重叠较小,说明这些属的真菌分布受海拔高度及植被类型的影响较大,仅在某些特殊林带中出现.     

Observations on the Flora and Vegetation of Taibai Shan,Qinling Mountain Range,Southern Shaanxi,China

Taibai Shan Mountain is generally known as “The highest mountain in the Qinling Mountain Range.” It is situated between 33°40' and 34°10'N latitude and 107°19' and 107°58'E longitude in southern Shaanxi Province. The area is deeply cut on all sides by four, V-shaped valleys, which gives the landscape a steep topography. The highest peak is about 3767 m above sea level, and the relative elevation of the whole Taibai Mountain area ranges from 1000 to 2200 m. Five chief soil types have been described in this region and are vertically distributed as follows: 1) Ochric castanozom, below 1000 m; 2) Brown forest soil, 1000-1500 m; 3) Podzolic brown earth, 1500-2800 m; 4) Podzolic soil, 2800-3000 m; 5) Alpine meadow soil, above 3000 m. Fu (1982) in an analysis of the Taibai Shan mountain area's summer climate, and in comparing temperatures on the north and south sides, described higher maximum temperatures at low elevations on the south, but lower temperatures at high elevations on the north. Rainfall is much higher on the south. The rugged topography of the Taibai Shan Range still preserves some tracts of natural er semi-natural vegetation at higher elevations. Our vegetational survey was confined to localities above 1300 m, whereas collecting specimens for documenting the flora extended over the whole area from the foothills ro the peak. On the basic of these floristic, vegetational and environmental studies in the Taibai Shan Mountain we are now able to draw some conclusions on the nature and relationships of the interesting flora and vegetation, and to discuss to some extent the phytogeography of an important segment of the Chinese flora. 1. Survey of large families of angiosperms. There are twenty large families of flowering plants in the Taibai Shan Mountain of Qinling Range (Table 1). The largest families are the Asteraceae (175 species), Poaceae (123 species) and Rosaceae (124 species). The Rosaceae is a major family in this region, and species in the family are characteristic members of the flora and vegetation of the temperate zone in China. Both Asteraceae and Poaceae are also frequently found in forests and elsewhere in this region. There are three families with 60 to 90 species; three families with 50-60 species; three families with 40-50 species and eight families with 20-40 species. These families combined contain 1186 species, including 655 endemic to China, making up 66.6% of the total flora, and play an important role in shaping the characteristics of the forests of the Taibai Shan Mountain. All these large families are temperate in nature. 2. Relationships of the Taibai Shan flora with others The Taibai Shan Mountain of the Qinling Range is very rich in genera (657) and species (1782) of flowering plants. Based on their geographical distribution, the genera of flowering plants in the Taibai Shan Mountain are classified into 15 distribution types (Table 2). In accordance with our analysis of all of the distribution types it is reasonable to conclude that: among the native genera in the flora of Taibai Shan,130 containing 242 species (22.1%) are tropical, 436 containing 1186 species (73.8%) are temperate and 24 (4.1%) are endemic to China. From these figures the flora of Taibai Shan can be thought of as composed of temperate elements. To determine the floristic affinities of the area with others within China, nine mountain regions were selected for a comparison (Table 5). Based on the worldwide distribution of genera in the ten mountain regions, 15 distribution patterns can be recognized (Table 4). A comparison of the similarities among the ten mountainous regions in China, based on the distribution of genera, shows that the floristic affinities of the Taibai Shan are first with the Daqing Shan in northern China and the Shennongjia region in central China, and secondly with the Jinfo shan, the Fanjing Shan, the Yulongxue Shah and the Nanjiabawa Mountain in southwestern China. 3. The structure and vertical distribution of communities in the Taibai Shan Mountain. The diagrammatic structures of the chief plant communities in the Taibai Shan Mountain are given in Fig. 8.1-8.6. All of the dominant species, except Betula utilis, are endemic to China. The distributional areas of some of dominant species overlap in the Qinling Mountain Range (Fig. 2 and 3). On the basis of floristic composition and the coefficients of similarity between narrow belts of vegetation (Tables 7 and 8), the vertical distributions of the plant communities on different slopes are shown as follows: Northern slope: 1) Quercus aliena var. acutiserrata forests (below 1800 m); 2) Quercus liaotungensis forests (1800-2200 m); 3) Betula albo-sinensis forests (2200-2800 m); 4) Abies fargesii forests (2800-3000 m); 5) L.arix chinensis forests (3000-3400 m); and 6) subalpine scrub (above 3400 m). Southern slope: 1) Quercus variabilis forests (below 1500m); 2) Ouercus aliena var. acutiserrata forests (1500-2000 m); 3) Betula utilis forests (2000-2500 m); 4) Abies fargesii forests (2500-3000 m); 5) Larix chinensis forests (3000-3400 m); and 6). subalpine scrub (above 3400 m). 4. Species diversity along gradients of elevation. In terrestrial habitats, variation in species diversity along gradients of elevation and available soil moisture are, generally speaking, almost as striking as latitudinal variation. Variation in the diversity of species of trees, shrubs and herbs with changes in elevation in the Taibai Shan Mountain of the Qinling Range is discussed. The number of tree species declines with increasing elevation, but the diversity of shrubs, and especially the herbaceous species, reaches the greatest richness at intermediate elevations in the Taibai Shan Mountain (Fig. 9). Whittaker (1960, 1977) has reported a similar pattern on temperate mountains in the United States. 5. Analysis of life-form spectra. A comparison of life-form spectra in the vegetation between the southern and northern slopes shows that the five principal classes of life-forms on the southern slope (Fig. 8. b) are very similar to those on the northern slope (Fig. 8. c). The correlation of life-form spectrum with altitude (Table 9) reveals a significant trend; a steady decrease of phanerophytes, but conversely increase of therophytes with altitude. In Table 10 is a series of spectra for certain community types in different regions. Here we see that the temperate deciduous broad-leaved forests of the Taibai Shan Mountains, Changbai Shan mountains, Beijing area in northern China and in the Appalachian region in eastern North America have very similar life-form spectra. In another case the evergreen broad-leaved forests of the Jinyuy Shan and Wuyanling mountains in southeastern China have strikingly similar life-form spectra. 6. Diels (1901, 1905) was the first botanist to recognize the Qinling Mountain Range as a botanical boundary between southern and northern China, a division also recognized by geographers. Since the 1960's most Chinese botanists have believed that the Qinling Mountain Range, together with Huai He River, forms a natural botanical divide between subtropical and temperate regions. From a floristic and phytogeographical viewpoint, however, it seems that this opinion is in need of reconsideration. As mentioned above, an analysis of genera and species pretty clearly indicates that the flora of the Taibai Shan Mountains is temperate in composition. Furthermore, all of the plant communities in this region are deciduous broad leaved forests or subalpine coniferous forests. On the other hand, the annual accumulated temperature, the average temperature in the coldest month and the annual mean temperature of the whole Tabai Shan Mountains exhibit the characteristics of a temperate climate. Thus it is clear that the Qinling mountain range, together with the Huai He River, can be credited as being a natural botanical divide between the warm temperate and temperate regions ofChina. 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秦岭地区子囊菌酵母物种多样性研究

从陕西秦岭地区的果实和叶等不同基物上分离得到子囊菌酵母262株,利用26SrDNA的D1/D2区域序列分析并结合形态学特征对这些菌株进行了分类学研究,探讨了该地区子囊菌酵母的物种多样性及其分布。共鉴定出10属31种,其中优势属为假丝酵母属Candida,12种,(其中新种2个,另文发表)、酿酒酵母属Saccharomyces,5种、毕赤酵母属Pichia,5种和有孢汉逊酵母属Hanseniaspora,3种。对分离自陕西秦岭不同地区与海拔的同一个种的不同菌株进行了D1/D2序列分析比较,以探讨子囊菌酵母种内序列稳定性和变异幅度。     

长白山北坡河岸带群落植物区系分析

对吉林省二道白河河岸带植物区系的研究结果表明,河岸带植被中共有维管束植物68科169属288种,其中包括蕨类植物11科16属26种,种子植物57科153属262种．种子植物中,裸子植物3科6属9种,被子植物54科147属253种;被子植物中,双子叶植物45科118属212种,单子叶植物9科29属41种．由此可见二道白河河岸带的植物种类较为丰富．对其中被子植物分布区类型的分析表明,二道白河流域河岸带种子植物区系科、属的分布类型较为丰富,在科级水平上有6个分布类型2个变型,在属级水平上有9个分布类型7个变型．河岸带植物区系呈温带特性,各类温带分布类型117属,占河岸带种子植物153属的76．5％．二道白河流域河岸带植物区系地理联系广泛,与热带植物区系和东亚区系具有一定的联系,但与地中海植物区系的联系甚少．表明河岸带在生物多样性保护中的重要作用．     

陕西秦岭平河梁自然保护区小型兽类的组成与分布

2005年9月利用铗日法辅以陷阱法对位于秦岭山脉南坡东段的平河梁自然保护区及牛背梁自然保护区小型兽类进行了调查,共设置采集点10个;2460铗日中共捕获小型兽类689只,隶属于3目6科19属27种(另有两种鼢鼠和一种鼯鼠系其他手段捕获),平均捕获率28.01%。对捕获的27种小型兽类生态和垂直分布进行分析结果表明:平河梁保护区3个群落的Shannon-Weiner多样性指数在2.9288-3.3639之间,Pielou均匀性指数在0.7669-0.8602之间。在上述调查的基础上,结合前人对邻近地区的调查,据一些物种的分布特点,订出平河梁自然保护区小型兽类的名录,计48种,结果显示秦岭南坡东段小型兽类的物种多样性和丰富度要高于秦岭其他地区。另在考察中采集到白尾鼹(Parascaptor leucura)、小纹背鼩鼱(Sorex bedfordiae)、斯氏鼢鼠(Myospalaxsmithii)、川西白腹鼠(Niviventer excelsior),在秦岭山区尚属首次记录。还整理了秦岭南坡小型兽类名录,认为秦岭南坡有小型兽类55种,在动物地理区划上应属于西南区。     

陕西秦岭太白山北坡食蚜蝇科昆虫区系调查

鉴定出秦岭太白山北坡食蚜蝇科昆虫2亚科,10族,35属,61种,包括中国新记录种3种:亮黄斑食蚜蝇Xanthogramma laetum(Fabricius)、无饰缩颜蚜蝇Pipiza inornataMatsumura和阿尔泰颜突蚜蝇Portevinia altaica(Stackelberg),陕西省新记录种16种。太白山北坡食蚜蝇科昆虫的区系成分以古北、东洋区共有种为主体,古北区成分略占优,东洋区成分占有一定比例;从属的分布类型看,多区属比例高达57.14%,单区属均为古北区成分,所占比例最低。太白山北坡食蚜蝇科昆虫区系具有明显的过渡性,混杂性和复杂性。     

秦岭太白红杉林分布及太白山高山林线特征的定量分析

采用正交试验设计在秦岭太白山设置了12个太白红杉林分,用样方方法对太白红杉种群进行了调查,用正交分析法和"DataProcessingSystem"数据处理软件对影响太白红杉林分布的5个生态因子进行了分析。结果表明:5个生态因子中,海拔梯度的变化是影响太白红杉林分布的主导因子,5个生态因子在影响太白红杉林分布中的作用地位是:海拔>坡度>土壤厚度>坡向>风向。并对描述太白红杉林的5个指标进行了主成分分析,并对高山林线进行了定量描述,胸高直径是描述太白红杉林的主要成分,海拔3400m是太白山太白红杉郁闭林的上限。     

秦岭植物园野生常绿阔叶木本植物

研究了秦岭植物园的野生常绿阔叶木本植物,报道了该区域有野生常绿阔叶木本植物10科11属14种,其中有1科,2属,3种为秦岭北坡新记录。     

秦岭太白山北坡蝗虫的群落结构

在秦岭太白山北坡23个样地内采集到蝗虫2总科7科25属34种。应用数量分类、多样性指数及相似性分析方法对太白山北坡蝗虫群落垂直分布样方资料进行了分析。应用数量分类法可将蝗虫群落按植被类型分为8种,即农耕带、栓皮栎林带、锐齿栎林带、辽东栎林带、桦木林带、冷杉林带、落叶松林带、高山草饲带。太白山蝗虫群落垂直分布规律明显。其中高海拔（如高山草甸带）的蝗虫种类数和多样性明显低于中低海拔,中低海拔（锐齿栎林带）蝗虫种类和多样性指数最大。但低海拔的农耕带人为干扰大,植被较单一,蝗虫优势种的优势度大,蝗虫密度大,而种类数较少。