西双版纳热带雨林蚁科昆虫区系分析

在西双版纳热带雨林已鉴定蚊科昆虫９亚科７６属２６７种。西双版纳地区的蚂蚁区系以热带至亚热带分布的东洋界成分最为丰富。在属级水平上,与马来西亚界关系最为密切。与澳洲界关系较密切;与非洲界和马拉加西界的关系知中。与新北界,新热带界和古北界的关系最为疏远。可见西双版纳的蚂蚁区系具有典型的热带亚洲起源特征,同时与澳洲和非洲的热带区系有一定的渊源关系。     

中国蚋类区系分布和地理区划(双翅目:蚋科)

报道我国蚋类的区系分布和地理区划,根据代表性类群的界间替代分布,对我国蚋类在东洋,古北两界的分布界限初步划线,分析表明,我国蚋类区系分布具有自北向南减弱,接壤区系的相似性和具有明显的地方性等特点,在区系分析的基础上,对我国蚋类进行三级地理区划。     

河南昆虫、蜘蛛、蜱螨地理分布的多元相似性聚类分析

河南省的昆虫、蜘蛛、蜱螨种类共8637种,隶属32目551科3967属。使用多元相似性聚类分析法(MSCA)对全省11个生态区域间的关系进行分析,总相似性系数0.184,表明分布很不均匀,在0.3的相似性水平上,全省分为4个地理分布区:平原盆地区、西北山地丘陵区、伏牛山区和桐柏大别山区。分析了分类阶元、区系成分、不同类群、种类规模、分布地规模对相似性聚类关系的影响,结果显示,属级水平和种级一样,能够揭示省级地理区域内的相似性聚类关系,科级水平将适合更大的地理区域;生物类群是对相似性聚类结构影响最大的参量,保证多类群的参与,是揭示整体规律的关键;在多类群参与的前提下,种类和分布地不是敏感的因素,合适的种类抽样同样能得到满意的结果,分布地的少量增减,也只会引起相似性系数的轻微变动。     

全国陆生野生动物调查单元区划方案

我国早期的动物地理区划主要依靠专家知识和经验,缺乏系统的定量分析,而且部分基本区划单元内的动物生态成分差异仍然较大,使其在野生动物保护管理应用中受到一定限制。为满足野生动物保护管理的需要,尤其为满足全国第二次陆生野生动物资源调查的需要,我们在张荣祖"中国动物地理区划"的基础上,进行了全国野生动物调查单元区划。将全国陆地区域划分为5 km×5 km的网格,基于1,784种陆栖脊椎动物(262种两栖动物、358种爬行动物、814种鸟类、350种兽类)的分布数据,对各网格内的动物分布型比例及自然环境因子进行聚类分析。根据聚类结果,并结合指示物种的分布情况以及省级行政区划界线,将全国划分为2界7区19亚区54个动物地理省239个生态地理单元310个调查单元。与张荣祖"中国动物地理区划"方案相比,界、区、亚区、动物地理省的数量一致,边界走向基本一致,但也有一些界线不同,而且增加了"生态地理单元"和"调查单元"2级区划单元。     

中国生物地理区划研究

首先将中版图根据综合自然（包括海拔、地形、气候、植被、水系、农业区等）因素,利用GIS技术手段,划分出124个基本单元。同时,根据一定的原则选择了171种哺乳类和509种植物物种,利用中国物种信息系统收集这些物种的分布信息,并运用GIS技术将这些信息转换为各个基本单元内这些物种存在与否的信息,再用数学量化分析方法,即Sφrensen相似性指数公式计算相关矩阵,以及Ward方法进行聚类分析,得到上述124个基本单元的哺乳类和植物分布相似性聚类图,从而最终得到一个新的定量化的、更具客观性和实用意义的中国生物地理区划系统,以及关于中国生物地理区划的许多重要结论。该区划包括4个区域（8个亚区域）、27个生物地理区和124个生物地理单元。采用从基本单元到高级区划的研究方法,在生物地理区划研究领域,这是一种方法学上的尝试,利用物种的分布相似性聚类结果来帮助确定区划界线,减少了对研究者自身所拥有的物种及生态学知识及经验的依赖,因而更具有客观性,较少掺杂研究者的主观臆断。这种方法也同样适用于其他生物门类区划的研究。     

古北和东洋界在我国东部的精确划界--据两栖动物

我国动物地理区划向以横跨古北界和东洋界而著称,但两界在我国东部即秦岭以东地区的精确划界始终没有明确的认识。依据我国东部河南、安徽和江苏省14个动物地理省2目10科17属42种两栖动物的分布资料,通过对物种相似性进行分析后表明,东部的分界呈现为一条过渡带：其北界为自秦岭—伏牛山—淮河—苏北灌溉总渠;其南界为伏牛山—桐柏大别山—淮南丘陵—通扬运河一线。讨论认为更准确的划界要依赖更多的动物类群,并从更大的尺度,进行深刻分析才能获得。     

梵净山土壤甲螨属级阶元区系初步研究

在不同季节通过定点和随机采集相结合,对梵净山土壤甲螨进行了调查,共得到甲螨标本11 487号,分属于45科81属.在世界动物地理区划中,以世界广布类群、东洋-古北界区系型类群和东洋界特有类群为主体;跨古北界的区系型中所包含类群所占比例最高.在中国动物地理区划中,以华中区独有类群、华中-华南区系型类群和华中-东北区系型类群为主体.含东北区跨区区系型类群最多.     

中国哺乳动物地理分布的多元相似性聚类分析

中国的地形复杂、地貌多样,动物的地理分布亦表现出明显的区域间差异。本研究通过新近文献调研,获知中国现生哺乳动物计692种（隶于13目56科246属）;进而建立物种及其地理分布数据库。采用多元相似性聚类分析（multivariate similarity clustering analysis, MSCA）方法,探讨了中国哺乳动物的地理分布特征。结果表明：（1）中国的现生哺乳动物可划分为176个调查地理单元（investigated geographical unit, IGU）,进而归并为63个基础地理单元（basic geographical unit, BGU）;（2）当相似性系数取0.31、0.25和0.15时,上述63个BGU可分别归并为10个、7个和2个基础地理单元群;据此可对中国的哺乳动物地理分布作出2界7区10亚区的3级区划。本文建议,世界动物地理区划中古北界与东洋界在中国境内的分界线走向为：南迦巴瓦峰西部-玛卿岗日-秦岭北部-黄土高原南缘-大别山-淮河南-长江中下游一线。     

青藏高原丽蝇科昆虫物种多样性初探

本文从种数、特有物种和区系构成等角度分析了青藏高原丽蝇科昆虫的物种多样性。青藏高原已知丽蝇5亚科35属120种,占中国已知种数的44.28%,其中特有种55种,占该地区总种数的45.83%;区系构成以特有种、古北界 东洋界共同种及典型的东洋界种和古北界种为主,但澳洲界、新北界、非洲界和新热带界共同种也占一定比例。文中讨论了该地区特有种丰富的原因及地质历史环境对其的影响,分析了区系构成中各种区系成分的比例及形成原因。     

重庆茶园蚁科昆虫区系分析

为了筛选对茶叶害虫有控制作用的蚂蚁种类,采用样地调查法研究了重庆地区茶园蚁科昆虫进行区系。发现蚁科昆虫4亚科,19属,39种,其中记录中国特有种7个,重庆新记录种37个。区系分析表明：重庆地区茶园蚂蚁区系在属级水平上以东洋界和古北界成分为主体,与马来西亚界和非洲界关系最紧密,与马拉加西界关系最远;在种级水平上以东洋界成分为主体,与古北界关系最紧密,与非洲界和马拉加西界关系最远;在中国动物地理区划中以华中区成分为主体,与其它地理区之间随着距离增加,关系逐步疏远。     

Biogeographic distribution of the Phytoseiidae (Acari: Mesostigmata)

More than 1982 species in 90 genera were included in an analysis of the biogeography of the Phytoseiidae, a family of predatory mites. Seven biogeographic regions were taken into account: Nearctic, Neotropical, Ethiopian, West Palaearctic, East Palaearctic, Oriental, and Australasian. The number of species was particularly high in the Neotropical, Oriental, and West Palaearctic regions. These regions also present the highest levels of species endemism. The number of genera was quite similar in all regions except for the Neotropics, which also had a high level of endemism. The possible Gondwanian (Neotropical, Ethiopian, Australasian, and Oriental regions) origin of the Phytoseiidae, most probably in the Neotropics, and their possible radiation to Laurasia (Nearctic, West Palaearctic, and East Palaearctic regions) are discussed. The comparison between genera and species in the different biogeographic regions indicate the importance of both dispersal and vicariance events in the evolution of the group. Dispersal is assumed to have been most important between Neotropical and Nearctic regions and between East Palaearctic and Oriental regions, whereas vicariance could have been the dominating process between Australasian, Ethiopian, and Oriental regions, as well as between West and East Palaearctic regions. A parsimony analysis of endemicity showed the Neotropical and the Nearctic regions to be isolated from the other regions. This is certainly due to a diversification after the continents drifted apart and then a high dispersal between Nearctic and Neotropical regions. Different phylogenetic hypotheses and scenarios are proposed for each subfamily based on the results obtained and further investigations are proposed.  © 2008 The Linnean Society of London, Biological Journal of the Linnean Society , 2008, 93 , 845–856.     

Pugs of the tribe Eupitheciini (Lepidoptera,Geometridae): the history of study and distribution over biogeographic regions

The World fauna of the tribe Eupitheciini is the most species-rich in the family Geometridae. This tribe includes about 1900 species (almost 3000 species-group names) from 47 genera; about one third of the genera (15) are monotypic. The generic diversity of Eupitheciini is the highest in the Australian (38 genera, 11 of them endemic) and Oriental regions (32 genera, 4 endemic) and the lowest in the Neotropical Region (possibly one genus only). The faunas of different biogeographic regions can be arranged in following order by their species richness: the Palaearctic (487 species), Oriental (397), Neotropical (346), Australian (251), Afrotropical (198), and Nearctic Regions (166 species). Eupithecia is the most species-rich genus in the family Geometridae and the entire order Lepidoptera, and one of the largest genera in the whole World fauna of insects. The greatest number of species of this genus is recorded in the Palaearctic Region (466 species), where Eupithecia accounts for about 95% of the tribe Eupitheciini. The mainland of the Oriental Region (especially the Himalayas) is also very species-rich; however the proportion of the Eupithecia representatives decreases towards Malaysia, Sundaland, and the Australian Region (about 2% of the tribe). The Eupitheciini faunas have the greatest similarity at the generic level between the Oriental and Australian Regions (the Jaccard and Sørensen coefficient values being 0.62 and 0.77, respectively). The Palaearctic fauna is more similar to the Afrotropical and Oriental faunas at the genus-group level. On the whole, the fauna of the Nearctic Region is similar to that the West Palaearctic, with the exception of the fact that representatives of the genera Gymnoscelis and Chloroclystis are absent in North America, although two endemic genera Nasusina and Prorella are present. At the genus-group level, the Nearctic fauna of Eupitheciini is more similar to the Neotropical (the Jaccard and Sørensen coefficients 0.20 and 0.33, respectively) than to the Palaearctic fauna (0.17 and 0.29). The number of synonymies is very high in the tribe Eupitheciini because of the homogeneity of this group, whose species are difficult to identify without the use of elaborate anatomical techniques. Modern revisions, catalogues, surveys, and atlases on Eupitheciini are absent for many countries and large geographic regions. Revisions of pugs of the tribe Eupitheciini for some biogeographic regions are extremely difficult because of fragmentation of entomological collections including the type specimens of many species-group taxa. A large fraction of synonyms is characteristic of parts of the World with the best known faunas: Europe (64% of synonyms) and North America (39%). On the contrary, the lowest levels of synonymy are typical of the less known faunas of the regions situated at the equatorial latitudes, namely the Neotropical (9%) and Afrotropical (8%) ones.     

Global diversity of water mites (Acari,Hydrachnidia; Arachnida) in freshwater

The Hydrachnidia (water mites) represent the most important group of the Arachnida in fresh water. Over 6,000 species have been described worldwide, representing 57 families, 81 subfamilies and more than 400 genera. The article analyzes extant water mite diversity and biogeography. Data on distribution and species richness of water mites are substantial but still far from complete. Many parts of the world are poorly investigated, Oriental and Afrotropical regions in particular. Moreover, information among different freshwater habitats is unbalanced with springs and interstitial waters disproportionately unrepresented. Therefore, more than 10,000 species could be reasonably expected to occur in inland waters worldwide. Based on available information, the Palaearctic region represents one of the better investigated areas with the highest number of species recorded (1,642 species). More than 1,000 species have been recorded in each of the Neotropical (1,305 species) and Nearctic regions (1,025 species). Known species richness is lower in Afrotropical (787 species) and Australasian (694 species) regions, and lowest in the Oriental region (554 species). The total number of genera is not correlated with species richness and is distinctly higher in the Neotropical (164 genera); genus richness is similar in the Palaearctic, Nearctic and Australasian regions (128–131 genera) and is lower in the Afrotropical and Oriental regions with 110 and 94 genera, respectively. A mean number of about three genera per family occur in the Palaeartic, Nearctic and Oriental while an average of more than four genera characterizes the families of Australasian and Afrotropical regions and more than five genera those of the Neotropical. Australasian fauna is also characterized by the highest percentage of endemic genera (62%), followed by Neotropical (50.6%) and Afrotropical (47.2%) regions. Lower values are recorded for the Palaearctic (26.9%), Oriental (24.4%) and Nearctic (21.4%). The Palaearctic and Nearctic have the highest faunistic similarity, some minor affinities are also evident for the generic diversification of Holarctic and Oriental families. The faunas of Southern Hemisphere bioregions are more distinct and characterized by the presence of ancient Gondwanan clades with a regional diversification particularly evident in the Neotropics and Australasia. This scenario of water mite diversity and distribution reflect the basic vicariance pattern, isolation, phylogenetic diversification, recent climatic vicissitudes and episodes of dispersal between adjacent land masses together with extant ecological factors can be evoked to explain distribution patterns at a global scale. Guest editors: E. V. Balian, C. Lévêque, H. Segers & K. Martens Freshwater Animal Diversity Assessment     

Historical biogeography of scarabaeine dung beetles

Abstract Aim (1) To review briefly global biogeographical patterns in dung beetles (Coleoptera: Scarabaeidae: Scarabaeinae), a group whose evolutionary history has been dominated by ecological specialization to vertebrate dung in warmer climates. (2) To develop hypotheses accounting for the evolution of these patterns. Location Six principal biogeographical regions: Palaearctic, Oriental, Afrotropical, Australasia, Neotropical, Nearctic and five outlying islands or island groups harbouring endemic genera: Caribbean, Madagascar, Mauritius, New Caledonia, New Zealand. Methods Major patterns of tribal, generic and species distribution are investigated using cluster analysis, ordination, parsimony analysis of endemism and track analysis. Attempts are made to resolve biogeographical patterns with findings in the fields of plate tectonics, fossil and evolutionary history, plus phylogeny of both mammals and dung beetles. Results Because of conflict between published findings, it is uncertain at what point in time density of dinosaur dung, mammal dung or both became sufficiently great to select for specialized habits in dung beetles. However, biogeographical evidence would suggest a Mesozoic origin followed by further taxonomic radiation during the Cenozoic, possibly in response to the increasing size and diversity of mammalian dung types in South America and Afro‐Eurasia. Proportional generic distribution in fourteen tribes and subtribes showed four principal biogeographical patterns: (1) southerly biased Gondwanaland distribution, (2) Americas or (3) Madagascar endemism, and (4) northerly biased, Afro‐Eurasian‐centred distribution with limited numbers of genera also widespread in other regions. Proportional composition of faunas in eleven geographical regions indicated three principal distributional centres, East Gondwanaland fragments, Afro‐Eurasia and the Americas. These patterns probably result from three principal long‐term range expansion and vicariance events (Mesozoic: Gondwanaland interchange and fragmentation, Cenozoic: Afro‐Eurasian/Nearctic interchange and the Great American interchange). It is suggested that old vicariance caused by the Mesozoic fragmentation of Gondwanaland leads to a high degree of regional endemism at generic or tribal level across one or more Gondwanaland tracks. In contrast, it is suggested that the more recent Cenozoic range expansions occurred primarily towards northern regions leading to endemism primarily at species level. These Cenozoic radiations were facilitated by the re‐linking of continents, either because of tectonic plate movements (Africa to Eurasia in Miocene), climatically induced sea‐level change (Afro‐Eurasia to Nearctic in Miocene and Pleistocene), or similar coupled with orogenics (Nearctic to Neotropical in Pliocene). Speciation has followed vicariance either because of climatic change or physical barrier development. These recent range expansions probably occurred principally along an Afro‐Eurasian land track to the Nearctic and Neotropical and an Americas land track northwards from the Neotropics to the Nearctic, with limited dispersal from Eurasia to Australia, probably across a sea barrier. This accounts for the overall, spatially constrained, biogeographical pattern comprising large numbers of species‐poor genera endemic to a single biogeographical region and fewer more species‐rich genera, many of which show wider biogeographical distributions. In most southerly regions (Australasia, Madagascar, Neotropical), faunal composition and generic endemism is primarily dominated by elements with Gondwanaland ancestry, which is consistent with the Gondwanaland origin claimed for Scarabaeinae. In Afro‐Eurasia (Palaearctic, Oriental, Afrotropical), generic endemism of monophyletically derived Afro‐Eurasian and widespread lineages is centred in the Afrotropical region and faunal composition is numerically dominated by Afro‐Eurasian and widespread elements. In the Nearctic region, the fauna is jointly dominated by widespread elements, derived from Afro‐Eurasia, and Gondwanaland and Americas elements derived from the Neotropical region. Main conclusions Global biogeographical patterns in scarabaeine dung beetles primarily result from Mesozoic and Cenozoic range expansion events followed by vicariance, although recent dispersal to Australia may have occurred across sea barriers. Detailed phylogenetics research is required to provide data to support dispersal/vicariance hypotheses.     

科昆虫地理分布研究初探

本文就科昆虫的起源,各亚科、族及属的分布特点进行了分析和总结;并根据各属的世界分布情况,将其分为８种类型。文中还就中国科昆虫的地理分布及特点作了初步的探讨,结果表明：在我国已知的２亚科４族２０个属中,东洋区分布的有１０个属,其中有３个属仅分布于我国;古北区分布的有１个属;东洋－古北区分布的有３个属;东洋－新北区分布的有１个属;东洋－古北－新北区分布的有４个属;东洋－古北－新北－非洲区分布的有１个属。此外,科昆虫在中国的一个主要分布特点就是多数种类集中分布于华中区、华南区和西南区;而华中区则很可能是科种类的分化中心,并以此为中心向其他区扩散。     

Further support for a Palaearctic origin of Leishmania

The fossil record and systematics of murid rodents, reservoirs of zoonotic cutaneous leishmaniasis in the Palaearctic, Oriental, African, Nearctic and Neotropical, strongly support a Palaearctic origin of Leishmania. The fossil record and systematics of phlebotomine sand flies reinforce this idea. Interpretations of molecular data that place the origin of Leishmania in the Neotropical are inconsistent with the natural histories of reservoirs and vectors. The evolutionary pattern of New World rats (Sigmodontinae) indicates that they may be the most important reservoirs of zoonotic cutaneous leishmaniasis throughout their range.     

Araucnephia iberaensis n. sp., a neotropical black fly with a peculiar distribution (Diptera-Simuliidae)

Araucnephia Wygodzinsky & Coscarón is a Neotropical black fly genus in which only one species from Central Chile is known. Another species has now been found in Corrientes province on the eastern side of the Iberá tropical swamps of Argentina, on the western border of the mountainous region of southern Brazil. This new species, A. iberaensis, is herein described and illustrated and information on its bionomics is recorded. It is an interesting species because previous to its discovery no black fly genus or subgenus from Central Chile region has been found in tropical areas, because these two regions are separated by the Monte and Pampas realms. Similarly, no Brazilian genus or subgenus has crossed the Andes mountains to Chile. A comparison with other Neotropical, Nearctic, Ethiopian (Afrotropical) and Australian Prosimuliini (sensu Crosskey & Howard) showed Araucnephia to be a valid taxon most closely related to Araucnephioides (sympatric in Chile). Araucnephia also shows great affinities with Lutzsimulium from Southeast Brazil and Argentina and Paracnephia from South Africa.     

基于在线数据库的鳞翅目刺蛾科昆虫物种多样性及其全球分布格局

鳞翅目刺蛾科昆虫在全球范围内广泛分布, 是重要经济林、行道林的主要害虫。本研究通过对在线数据库中刺蛾科昆虫分布数据进行整理分析, 阐明其在全球范围内的物种多样性及分布格局, 并初步探讨造成其物种分布不均的原因, 从而为物种多样性保护及害虫防治提供科学依据。通过检索生物条形码数据库(Barcode of Life Data System V4, BOLD V4)和全球生物多样性信息数据库(Global Biodiversity Information Facility, GBIF)中记录的标本信息, 并结合部分地区鳞翅目昆虫名录及野外采集样本数据, 对刺蛾科昆虫的分布信息进行汇总分析并绘制分布图。统计得到具有明确地理坐标的刺蛾科昆虫分布信息61,947条, 共187属637种。结果表明, 在世界动物地理区系尺度上, 东洋区刺蛾科昆虫物种多样性最高, 共72属, 古北区31属, 澳新区及新热带区均为27属, 非洲热带区22属, 新北区19属。在国家尺度上, 中国存在刺蛾科昆虫123种, 越南116种, 其次为哥斯达黎加(75种)和澳大利亚(69种)。中低纬度地区具有较高的刺蛾科昆虫物种多样性和丰富度, 这有可能与该地区的气候历史条件及丰富的寄主植物资源有关。     

Insect taxonomic diversity in the Russian Far East

The insect fauna of the Russian Far East comprises 634 families from 31 orders. The estimated species number is 31500. The largest orders are Hymenoptera (76 families, 9000 estimated species), Diptera (120 families, 8000 estimated species), Coleoptera (114 families, 5500 estimated species), and Lepidoptera (81 families, 5000 estimated species). The fractions of the main insect orders in the fauna of the Russian Far East correspond to those in the Holarctic temperate zone. The high biodiversity of insects in the Russian Far East results from the position of this region extending across several climatic zones. There are four levels of diversity both for the families and for the species, corresponding to the tundra, taiga, the transitional area between taiga and broadleaved forests, and the broadleaved forest zone. The number of insect families increases by 3 times while that of species increases by 20 times from the tundra to the broadleaved forests. Differentiation of the insect fauna of the Russian Far East results from the recent climatic situation (the influence of the Pacific monsoon) and the geologic history (broadleaved forest refugia resulting from the absence of complete ice cover during Pleistocenic glaciation in the south of the Russian Far East); it reflects deep faunistic connections of the eastern Palaearctic with the Nearctic and Oriental Regions. The mountain areas in the North Pacific are the refugia of the Mesozoic and Tertiary insect faunas. The Pacific may have substantially reduced the Cenozoic aridization in the northern hemisphere, which was one of the important factors of formation of the recent biota in the Palaearctic and Nearctic regions.