Taxonomic composition and zoogeographic characteristics of the flea fauna (Siphonaptera) of Russia

255 species and 59 subspecies of fleas from 55 genera of 7 families are known from Russia, which is 30% of the Palaearctic fauna. Additionally, over 187 species of 47 genera from 7 families are known from the neighboring territories of Central and Southern Europe, Transcaucasia, Kazakhstan, Middle Asia, Mongolia, Northeast China, and Japan. 13 species of 12 genera are known only from Russia. Noteworthy is the low percent of endemic species (not more than 4%) and genera (one genus) in the Russian fauna. The principal centers of taxonomic diversity in the Palaearctic, including many endemic species and genera, lie in the Eastern Asian, Central Asian, and Turano-Iranian Subregions, outside Russia and the Euro-Siberian Subregion. The bulk of the Russian fauna is formed by the species and genera of the three largest flea families: Hystrichopsyllidae, Ceratophyllidae, and Leptopsyllidae. The family Ceratophyllidae has the greatest number of genera in the Russian fauna, and Hystrichopsyllidae, the greatest number of species. Western (Western and Western-Central Palaearctic; 84 species from 41 genera of 7 families) and Eastern (Central-Eastern and Eastern Palaearctic; 78 species from 42 genera of 6 families) species are nearly equally represented in the Russian fauna.     

Patterns of formation of the flea (Siphonaptera) fauna in the Caucasus

Fleas of the Caucasus belong to 155 species of 40 genera, constituting 17% and 43% of the species and generic composition of the Palaearctic fauna, respectively. The Caucasian fauna includes 23 endemic species but no endemic genera or subgenera. In the number of species, the Caucasian fauna is similar to that of the Mediterranean Subregion and is significantly poorer than the faunas of the Euro-Siberian (by 2.2 times) and Irano-Turanian (by 1.7 times) Subregions. Based on taxonomic diversity, we can propose a hypothesis on the West and East Palaearctic sources of the Caucasian fauna. The West Palaearctic source has determined the distribution of pulicomorph fleas of the families Pulicidae and Coptopsyllidae from Africa, on the one hand, and of fleas of the genera Ctenopthalmus and Palaeopsylla from Europe, on the other hand. Fleas of the Holarctic genera, such as Ceratophyllus and Megabothris, entered the Caucasus by the north Asian route; fleas of the genera Neopsylla, Rhadinopsylla, and Hystrichopsylla migrated to the Caucasus from east and central Asia by the south Asian route, through Middle and Western Asia.     

云南蚤类区系及分布特征

【目的】在收集汇总以往野外调查资料以及已经发表的历史文献资料基础上,归纳云南蚤类的分布特点,分析云南地理小区对蚤类的影响。【方法】在实地采集和补充文献记录基础上,对收集到的蚤类进行系统分类整理;运用SPSS13.0的主成分分析及系统聚类对数据进行处理。【结果】本研究共记录云南蚤类9科45属144种,其中古北种15种,东洋种 108种,东洋、古北两界兼有种15种,广布种6种。144种蚤中,属于云南特有蚤类有75种;横断山中部小区记载蚤类122种,横断山南部小区26种,滇东高原小区41种,滇西高原小区28种,滇南山地小区25种。主成分分析和聚类分析结果基本一致,均可聚为两类：一类为横断山南部小区、滇南山地小区、滇西高原小区及滇东高原小区; 另一类为横断山中部小区。【结论】云南省蚤类分布明显受到地理小区环境的影响。云南省蚤类昆虫种类繁多,蚤类的自然分布受到云南省特定地形地貌影响。     

The Origin of the Northern Palaearctic Fauna of Bloodsucking Insects,by the Example of Fleas (Siphonaptera), Mosquitoes (Diptera: Culicidae), and Blackflies (Diptera: Simuliidae)

The territory of Fennoscandia and northwestern European Russia was released from the glacier cover in the Upper Pleistocene and has been recolonized by bloodsucking insects during the last 11 thousand years. The sources of formation of the Northern Palaearctic fauna of such groups of bloodsucking insects as fleas (Siphonaptera), mosquitoes (Culicidae), and blackflies (Simuliidae) were different in the postglacial period. One of the sources was the fauna of the ancient Mediterranean and southern Europe, while others were the faunas of northeastern China and Primorye. In turn, the two latter sources are closely related to the ancient faunal centers of the East Asian Subregion of the Palaearctic and also of the Indomalayan Region. Besides, some species and genera have spread from the West American Subregion of the Nearctic through Beringia.     

Host associations and origin in the formation of the Caucasian fauna of fleas (Siphonaptera)

Results of analysis of the Caucasian fauna of fleas and their association with mammal and avian hosts are reported. The Caucasian fauna of potential flea hosts comprises about 130 species of mammals and about 470 species of birds. Most of the flea species in the Caucasian fauna (88 out of 155) parasitize rodents, 51 species of which are permanent hosts of different flea species; 13 flea species occur on 11 species of insectivores; 13 flea species, on 13 species of chiropterans; 14 flea species, on 20 species of carnivores. Only 2 flea species parasitize artiodactyles. 54 species of birds are permanent hosts of 23 species of fleas from 4 genera in the Caucasus. Ten types of ranges of flea species are distinguished; host associations of the Caucasian flea species from these groups are discussed. The greatest numbers of hosts from the families Cricetidae, Muridae, and Sciuridae are associated with fleas with Euro-Asian (extra-Siberian), European, Turanian, and Iranian ranges. Soricidae are known as hosts of flea species with European and Euro-Turanian ranges. Four major groups of flea taxa are represented in the Caucasian fauna. The distribution of the first group is determined by the influence of the palaeofauna of the ancient European continent in the early Cenozoic; that of the second group, by the influence of the fauna of the ancient Asian continent during the Paleogene and part of the Neogene; the third, by the influence of the fauna of southern Europe starting with the Miocene. The fourth group comprises the species which immigrated from northern Europe and Asia in the Late Neogene (2–3 mln years ago).     

Geographical distribution of the weevil subfamily Ceutorhynchinae (Coleoptera, Curculionidae)

A brief general characteristic and review of distribution of the subfamily Ceutorhynchinae over zoogeographical realms are given, with an emphasis on the distribution within the Holarctic and Palaearctic. The potential of exploiting landscapes of all natural zones of the Holarctic by a low-rank taxon is exemplified by the Holarctic Ceutorhynchus cochleariae (Gyll.) species-group comprising ca. 20 species evenly distributed between the Palaearctic and Nearctic. Although neighboring with the powerful centers of tropical biota, the Holarctic fauna of the subfamily Ceutorhynchinae is formed mostly of endemic and subendemic genera which are especially abundant in the Palaearctic. This region possesses the most diversified generic and species composition of the fauna consisting of predominantly endemic and subendemic genera (in the Mediterranean and Saharo-Gobian regions, also of the highly diversified tribe Oxyonychini) up to its southern border. The existence of characteristic transitional faunas in the zones of contact of the Holarctic fauna with the faunas of the tropical regions in East Asia and Mexico is shown. These transitional faunas include a considerable number of endemic taxa of the genus and species groups. A conspicuous feature of the Palaearctic ceutorhynchine fauna is the rather numerous complex of the upland and high-latitude species.     

湖北大巴山东部蚤类区系组成及垂直分布

采用常规与沿雪线调查方法,对大巴山东部具代表性的7个不同海拔梯度及6个不同生境类型,连续进行了11年调查和研究。结果表明：1)在所获得的8科28属51种9 974只蚤类中,有25种隶属于古北界,占49.02%,21种属于东洋界,占41.18%,5种广布,占9.80%; 经个体数量区系处理,古北和东洋两界蚤类区系数量（37.97%,50.30%）并不完全与物种区系相吻合,但东洋蚤类区系数量与古北物种区系相当;2）大巴山东部蚤类垂直分布的区系特点是,1 500 m以下东洋成分占绝对优势,1 600～2 300 m古北成分达44.82%～56.41%,但个体区系数量却在33.47%～60.16%之间,物种区系成分与数量区系分布并不完全一致; 一些东洋界特有指示性质的巴山盲鼠蚤和它的寄主猪尾鼠,仍可分布到这一地带;当海拔上升到2 600 m,古北成分已稳定达55.00%,此地带已不见东洋界特有指示性质的巴山盲鼠蚤和它的寄主猪尾鼠的踪迹,当海拔上升到2 800～2 980 m,古北成分和个体数量分别已达65.00%和89.51%;3）在大巴山东部51种蚤类中,有24种在秦岭有分布,占秦岭已知34种的70.58%,两座山系古北成分也相当,分别为49.02%及52.94%。最后按区系、宿主动物、植被带谱和地理状况相近原则,对张金桐等（1989）对秦岭南坡的蚤类海拔高度划线1 000～2 000 m进行修订,并上移至2 600 m左右地带,修订后的划线,其具体位置及走向大体与暗针叶林的下限保持一致。此线以上,无论蚤种或是数量都以古北界成分为主,低于此线,古北、东洋成分和一些特有指示性质的种类相互渗透。     

The fauna of bloodsucking insects of Northwestern Russia. Characteristics of the ranges

The fauna of the Northwestern region of Russia comprises 285 species of bloodsucking insects. The number of species of mosquitoes and lice in the Northwest constitute 40% of the total numbers in the Russian fauna; that of the biting midges, 38%; horseflies, 35%; blackflies, 30%, and fleas, 19%. Representatives of 4 dipteran families of the “gnus” complex, and also lice and fleas of the Northwestern Russian fauna possess ranges of 12 types, most of which include large part of the Holarctic or Palaearctic; 57 species (20%) of the species have Holarctic ranges; 82 species, or 28%, trans-Palaearctic ranges; 49 species, or 17%, Western-Central Palaearctic ranges; and 73 species, or 25%, Western-Palaearctic ranges. The fraction of species (8) with other range types is 19%. A synopsis of the species groups characterized by these types of ranges is given. Species with ranges extending as far northwards as the tundra zone constitute 13%, those with ranges including the taiga zone, 60%, and those with other range types, 27% of the fauna.     

Latitudinal gradients in niche breadth: empirical evidence from haematophagous ectoparasites

Aim  We searched for relationships between latitude and both the geographic range size and host specificity of fleas parasitic on small mammals. This provided a test for the hypothesis that specialization is lower, and thus niche breadth is wider, in high-latitude species than in their counterparts at lower latitudes.
Location  We used data on the host specificity and geographic range size of 120 Palaearctic flea species (Siphonaptera) parasitic on small mammals (Soricomorpha, Lagomorpha and Rodentia). Data on host specificity were taken from 33 regions, whereas data on geographic ranges covered the entire distribution of the 120 species.
Methods  Our analyses controlled for the potentially confounding effects of phylogenetic relationships among flea species by means of the independent-contrasts method. We used regressions and structural equation modelling to determine whether the latitudinal position of the geographic range of a flea covaried with either the size of its range or its host specificity. The latter was measured as the number of host species used, as well as by an index providing the average (and variance in) taxonomic distinctness among the host species used by a flea.
Results  Geographic range size was positively correlated with the position of the centre of the range; in other words, fleas with more northerly distributions had larger geographic ranges. Although the number of host species used by a flea did not vary with latitude, both the mean taxonomic distinctness among host species used and its variance increased significantly towards higher latitudes.
Main conclusions  The results indicate that niche breadth in fleas, measured in terms of both its spatial (geographic range size) and biological (host specificity) components, increases at higher latitudes. These findings are compatible with the predictions of recent hypotheses about latitudinal gradients.     

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.     

大理苍山洱海自然保护区山地蚤类区系与生态的研究

１９９２－１９９７年,对大理苍山洱海自然保护区山地蚤类进行了垂直分布的调查研究,共采获蚤类５科２１属３９种（亚种）３２４１头,并对以苍山为主体的山地各主要生态环境蚤类的群落结构,物种丰富度,物种多样性,均匀度和生态优势度进行了测定和比较,分析蚤类及其宿主动物的分布特点和自然环境因素后认为,在苍山所获３９种蚤类中有１６种（占４１．０３％）属东洋界种类,２１种（占５３．８４％）,属古北界种类,２种属广     

Zoogeographical characteristics of the Systellognatha (Plecoptera) fauna of Russia and adjacent countries

The stonefly fauna of the Systellognatha group of Russia and adjacent countries comprises 120 species belonging to 43 genera of 5 families. According to the geographical distribution, 12 groups of genera and 16 species-groups are distinguished. Most of the genera belong to the Holarctic (5), Nearctic-Eastern Palaearctic (7), Amphipacific (9), and Western Palaearctic (8) groups; among the species, the Eastern Palaearctic (29), Palaearchearctic (25), and Western Palaearctic (19) ones are prevalent. There are endemic species, especially in the Caucasus and Middle Asia.     

中国云南部分人间鼠疫流行区蚤类区系调查(英文)

归纳了中国云南 13个人间鼠疫流行区的调查资料 ,对调查疫区的蚤类区系进行了研究。总计捕获12 0 77只小兽 ,隶属啮齿目、食虫目及攀目 3个目中的 9科、2 9属、4 7种。从小兽体表共采获 9369只蚤 ,经分类鉴定 ,隶属 5科、18属、33种。 33种蚤及 4 7种小兽宿主均按其分类阶元详细列于文末。结果表明 ,山区蚤及小兽宿主的种数明显多于坝区。坝区农耕地的优势种相对简单 ,优势种地位突出 ,黄胸鼠及印鼠客蚤分别是最重要的宿主及蚤种 (构成比分别为 83 2 7%和 75 32 % )。山区的优势种相对较复杂 ,优势种的种类较多 ,但其构成比较低 ( 10 96%～ 4 7 95% )。黄胸鼠及绒鼠为山区地带的两种优势宿主 ,缓慢细蚤、端凹栉眼蚤、印鼠客蚤、偏远古蚤及短突栉眼蚤为山区地带的 5种优势蚤种。多数蚤种可寄生两种以上的小兽宿主 ,但其所寄生的主要宿主并不多。结果提示 ,作为疫区主要媒介的印鼠客蚤及其所对应的主要寄生宿主 (黄胸鼠 )在坝区突出的优势种地位 ,似可解释近年疫区的鼠疫病人主要出现在坝区的原因     

Peculiarities of thoracic and abdominal combs of fleas (Siphonaptera)

The structure of pseudosetae, spinelets, and spines of combs (ctenidia) was studied by means of light and SE microscopy in 80% of genera and subgenera of the World fauna. It is found out that peculiarities of ctenidiae in the prothorax and in tergites of the abdomen are characteristics of families and infraorders of fleas. Some characters of ctenidiae found in certain flea genera are reductions and apparently caused by habitation in some extremal conditions. An absence of ctenidiae in the unfraorder Pulicomorpha is compensated by more developed posterior margin of prothorax and general abbreviation of all thoracal segments. Reasons of ctenidiae absence, which is observed in certain genera of the infraorders Ceratophyllomorpha, Pygiopsyllomorpha and Hystricopsillomorpha associated with the same hosts, is not clear. It is confirmed, that distance between ctenidiae in different flea species associated with the same species host species, however it is recovered, that this distance correlates with the diameter of most thin hair of host. In some flea species the distance between ctenidia spices in females is larger, than in males. It is found, that sexual dimorphism by this character may not be expressed in certain species of closely related species group of fleas. It is suggested that ctenidiae were present even in the common ancestor of fleas. The hypothesis on origin of spines and pseudosetae from setae of the posterior walls of toracal and abdominal segments in the common ancestor of fleas is proposed.     

青藏高原跳甲亚科昆虫区系研究

讨论青藏高原（包括横断山区）的跳甲亚科昆虫区系。该区已知47属228种。1）据属级阶元的分布类型分析,以东洋属和南型属种显占优势,是区系主体,显示该区跳甲区系的热带渊源,其中高山属种赋予该区以高山区系特征;2）该区物种分化活跃,是某些多种属中国种类的分布中心和分化中心;3）联系中国跳甲亚科区系,在地理分布格局上显示西－东分布,如Hespera属的分布和西南－东北分布或西南－东北的间断分布格局,如Pentamesa和Stenoluperus属的分布。这种地理分布格局反映青藏高原的隆起给中国昆虫区系带来重要影响。     

中国夜蛾科昆虫的物种多样性及分布格局

本文在收集整理中国夜蛾全部种类名录和分布资料的数据库基础上,对其分布格局进行了分析。结果表明：中国夜蛾共有20个亚科845个有效属3 751个有效种,占世界种类的13.66%,其中1 734种模式产地在中国。这些种类主要归属4种区系成分,其中东亚成分占优势,占总数的51.35%,东洋成分占25.51%,古北成分占18.45%,广布成分仅2.26%。夜蛾在全国七个动物地理区中的分布,是不同类群不同分布特点的复合体,84种广布种分布广泛而均匀,七区之间的多元相似性系数达显著水平。 957种东洋种类和692种古北种类随纬度呈阶梯状分布,各区间无显著相似性。 1 926种东亚种类中,南中国型1 363种,分别较为孤立地分布在华南、华中、西南三区,各区之间联系微弱; 北中国型290种,零星分散地分布在东北、蒙新、华北、青藏四区; 中中国型273种遍布全国,但主要分布在我国中部的华北、华中、西南、青藏四区,以跨界分布为特点,四区之间具有显著的多元相似性。特有种的简约性分析结果表明,特有分布区的分布和划分基本和中国动物地理区划相一致,但台湾和华中区关系密切。关键区系分析显示,台湾、云南、新疆、西藏等11个省区包含了中国夜蛾物种的90%,是物种保护的优先区域。     

A faunistic review of carabids (Coleoptera,Carabidae) of the Barguzin Mt. Range (Northern Baikal Area)

The list of carabids from the Barguzin Mt. Range includes 132 species belonging to 29 genera of 17 tribes. Five new species endemic or subendemic to the Barguzin Mt. Range have been discovered. The carabid fauna of the Northern Baikal Area has a high percentage of species with wide distribution in the Palaearctic. The bulk of the fauna consists of species with Circumholarctic, Transpalaearctic, Euro-Siberian, Siberian, and Asian-American ranges. Sayano-Baikalian, Southern Siberian, Baikalian, and Transbaikalian species with local distribution are less numerous than the Mongolian, Kazakhstan, Amur, and Okhotian species. Lake Baikal and mountain ranges framing it form a meridional barrier for the distribution of some species.     

Similarity in ectoparasite faunas of Palaearctic rodents as a function of host phylogenetic, geographic or environmental distances: Which matters the most?

Different host species harbour parasite faunas that are anywhere from very similar to very different in species composition. A priori, the similarity in the parasite faunas of any two host species should decrease with increases in either the phylogenetic distance, the distinctness of the environments occupied or the geographical distance between these hosts. We tested these predictions using extensive data on the faunas of fleas (Insecta: Siphonaptera) and gamasid mites (Acari: Parasitiformes) parasitic on rodents across the Palaearctic. For each pair of host species, we computed the similarity in parasite faunas based on both species composition as well as the phylogenetic and/or taxonomic distinctness of parasite species. Phylogenetic distances between hosts were based on patristic distances through a rodent phylogeny, geographic distances were computed from geographic range data, and environmental dissimilarity was measured from the average climatic and vegetation scores of each host range. Using multiple regressions on distance matrices to assess the separate explanatory power of each of the three dependent variables, environmental dissimilarity between the ranges of host species emerged as the best predictor of dissimilarity between parasite faunas, especially for fleas; in the case of mites, phylogenetic distance between host species was also important. A closer look at the data indicates that the flea and mite faunas of two hosts inhabiting different environments are always different, whilst hosts living in similar environments can have either very similar or dissimilar parasite faunas. Additional tests showed that dissimilarity in flea or mite faunas between host geographic ranges was best explained by dissimilarity in vegetation, followed by dissimilarity in climatic conditions. Thus, external environmental factors may play greater roles than commonly thought in the evolution of host-parasite associations.     

福建省肖叶甲科属种分布类型与动物地理格局(鞘翅目)

研究福建省肖叶甲科属与种的分布类型,动物地理成分以及该省与其他地区的区系关系,发现该省的肖叶甲科属级单元以南方成分为主,兼有南北广布成分,无典型的北方属;种的分布以亚洲季风区分布型（包括五种亚型）为主。兼有热带亚洲分布型以及少量的亚洲广布和北方型种。     

宁波天童森林公园蝶类资源及区系组成

在1990－2001年间对宁波天童国家森林公园的蝶类资源进行了调查,共采集到蝶类68种,隶属于9科52属。其中,东洋种29种,古北种5种,东洋、古北共有种34种,分别占总数的42.6%、7．4％和50．0％,表明该地区蝴蝶以东洋界种类为主要成分。同时还记述了各种蝴蝶的学名和寄主。