Phylogeny and classification of Aedini (Diptera: Culicidae), based on morphological characters of all life stages

Higher‐level relationships within Aedini, the largest tribe of Culicidae, are explored using morphological characters of eggs, fourth‐instar larvae, pupae, and adult females and males. In total, 172 characters were examined for 119 exemplar species representing the existing 12 genera and 56 subgenera recognized within the tribe. The data for immature and adult stages were analysed separately and in combination using equal (EW) and implied weighting (IW). Since the classification of Aedini is based mainly on adult morphology, we first tested whether adult data alone would support the existing classification. Overall, the results of these analyses did not reflect the generic classification of the tribe. The tribe as a whole was portrayed as a polyphyletic assemblage of Aedes and Ochlerotatus within which eight (EW) or seven (IW) other genera were embedded. Strict consensus trees (SCTs) derived from analyses of the immature stages data were almost completely unresolved. Combining the adult and immature stages data resulted in fewer most parsimonious cladograms (MPCs) and a more resolved SCT than was found when either of the two data subsets was analysed separately. However, the recovered relationships were still unsatisfactory. Except for the additional recovery of Armigeres as a monophyletic genus, the groups recovered in the EW analysis of the combined data were those found in the EW analysis of adult data. The IW analysis of the total data yielded eight MPCs consisting of three sets of two mutually exclusive topologies that occurred in all possible combinations. We carefully studied the different hypotheses of character transformation responsible for each of the alternative patterns of relationship but were unable to select one of the eight MPCs as a preferred cladogram. Overall, the relationships within the SCT of the eight MPCs were a significant improvement over those found by equal weighting. Aedini and all existing genera except Ochlerotatus and Aedes were recovered as monophyletic. Ochlerotatus formed a polyphyletic assemblage basal to Aedes. This group included Haemagogus and Psorophora, and also Opifex in a sister‐group relationship with Oc. (Not.) chathamicus. Aedes was polyphyletic relative to seven other genera, Armigeres, Ayurakitia, Eretmapodites, Heizmannia, Udaya, Verrallina and Zeugnomyia. With the exception of Ae. (Aedimorphus), Oc. (Finlaya), Oc. (Ochlerotatus) and Oc. (Protomacleaya), all subgenera with two or more species included in the analysis were recovered as monophyletic. Rather than leave the generic classification of Aedini in its current chaotic state, we decided a reasonable and conservative compromise classification would be to recognize as genera those groups that are ‘weighting independent’, i.e. those that are common to the results of both the EW and IW analyses of the total data. The SCT of these combined analyses resulted in a topology of 29 clades, each comprising between two and nine taxa, and 30 taxa (including Mansonia) in an unresolved basal polytomy. In addition to ten genera (Armigeres, Ayurakitia, Eretmapodites, Haemagogus, Heizmannia, Opifex, Psorophora, Udaya, Verrallina and Zeugnomyia), generic status is proposed for the following: (i) 32 existing subgenera of Aedes and Ochlerotatus, including nine monobasic subgenera within the basal polytomy, i.e. Ae. (Belkinius), Ae. (Fredwardsius), Ae. (Indusius), Ae. (Isoaedes), Ae. (Leptosomatomyia), Oc. (Abraedes), Oc. (Aztecaedes), Oc. (Gymnometopa) and Oc. (Kompia); (ii) three small subgenera within the basal polytomy that are undoubtedly monophyletic, i.e. Ae. (Huaedes), Ae. (Skusea) and Oc. (Levua), and (iii) another 20 subgenera that fall within the resolved part of the SCT, i.e. Ae. (Aedes), Ae. (Alanstonea), Ae. (Albuginosus), Ae. (Bothaella), Ae. (Christophersiomyia), Ae. (Diceromyia), Ae. (Edwardsaedes), Ae. (Lorrainea), Ae. (Neomelaniconion), Ae. (Paraedes), Ae. (Pseudarmigeres), Ae. (Scutomyia), Ae. (Stegomyia), Oc. (Geoskusea), Oc. (Halaedes), Oc. (Howardina), Oc. (Kenknightia), Oc. (Mucidus), Oc. (Rhinoskusea) and Oc. (Zavortinkius). A clade consisting of Oc. (Fin.) kochi, Oc. (Fin.) poicilius and relatives is raised to generic rank as Finlaya, and Downsiomyia Vargas is reinstated from synonymy with Finlaya as the generic name for the clade comprising Oc. (Fin.) leonis, Oc. (Fin.) niveus and their relatives. Three other species of Finlaya?Oc. (Fin.) chrysolineatus, Oc. (Fin.) geniculatus and Oc. (Fin.) macfarlanei? fall within the basal polytomy and are treated as Oc. (Finlaya) incertae sedis. Ochlerotatus (Ochlerotatus) is divided into three lineages, two of which, Oc. (Och.) atropalpus and Oc. (Och.) muelleri, are part of the basal polytomy. The remaining seven taxa of Oc. (Ochlerotatus) analysed, including the type species, form a reasonably well‐supported group that is regarded as Ochlerotatus s.s. Ochlerotatus (Rusticoidus) is retained as a subgenus within Ochlerotatus s.s. Ochlerotatus (Nothoskusea) is recognized as a subgenus of Opifex based on two unique features that support their sister‐group relationship. A new genus, Tanakaius gen. nov. , is proposed for Oc. (Fin.) togoi and the related species Oc. (Fin.) savoryi. The taxonomic status and generic placement of all currently valid species of Aedini are listed in an appendix. © 2004 The Linnean Society of London, Zoological Journal of the Linnean Society, 2004, 142 , 289?368.     

三株杀粘虫放线菌的分类鉴定

菌株YIM31331、YIM31333、YIM31355是从云南省丽江、中甸采集的土壤样品中分离得到的具有产杀粘虫活性物质菌株。根据其形态学特征、生理生化特性及16S rDNA序列分析结果,认为菌株YIM 31331属于链霉菌属的Streptomyces subrutilus,YIM31333属于指孢囊菌属Dactylosporangium aurantiacum,YIM31355属于链孢囊菌属Streptosporangium vulgare。     

我国部分地区自然发酵豆酱中的曲霉菌及其有性型

Twenty species of Aspergillus and their teleomorphs were isolated from naturally fermented soybean pastes collected in 42 regions of China. Of which A. tubingensis, A. flavus, A. niger, A. ochraceus, A. candidus and A. fumigatus were predominant. The high frequency of A. flavus from the samples indicates that the traditional making method of soybean paste might possibly be harmful to food safety. Some Aspergillus species or strains isolated from the traditional food samples may be hopeful of using in pure leaven making and industrial production of soybean paste with special flavor.     

应用聚类分析研究十字珊瑚亚科的分类并探讨其起源与演化

提要具分裂繁殖的十字珊瑚类在我国扬子区兰多维列统（Llandovery）分布广泛,属种繁多,有重要的地层意义．但长期以来关于该类群的分类位置及各属的定义和范围各家意见不一。文章应用Q型聚类分析研究十字珊瑚类的分类．提出十字珊瑚亚科可分为7属．即：Stauria Milne-Edwards et Haime, Cystostauria He et Li, Ceriaster Lindstrom. Eostauria He et Li. Paraceriaster Y. X. He. Parastauria He et Li. Massparaseriaster nora. provis. 对7个属分别给予简要定义。文中对十字珊瑚亚科的起源、演化及扩散进行探讨．并分析各属可能的演化亲缘关系。资料表明．最原始最早期的Eostauria属很可能起源于澳大利亚的新南威尔士晚奥陶世的Palaeophyllum的某一种群．后在早兰多维列世晚期扩散到扬子区．在中兰多维列世的爱隆期（Aeronian）迅速繁衍,产生许多新属种,因而扬子区在兰多维列世是十字珊瑚类的演化中心。除少数类群,如：Eostauria,Ceriaster．Stauria在晚兰多维列世或文洛克世（Wenlock）早期分别迁移到中亚地区和欧洲,多数类群在扬子区晚兰多维列世的早、中期因不适应环境巨变而快速衰亡。     

大豆属Soja亚属种皮微形态特征的研究

采用扫描电镜对大豆属Soja亚属植物的种皮微形态特征进行了系统研究。结果表明,该亚属植物种皮微形态特征在种的水平上具有一定的分类学意义。     

中国沙拐枣属植物的数值分类研究

选择了中国19种沙拐枣属（CalligonumL.)植物,共测定及引用了35个形态分类指标,应用单因素方差分析（MANOVA）和主成分分析（PCA）,分别对形态因子进行了单元和多元分析。结果表明,所有的种间形态指标均差异显著,冠幅（BC）,木质枝枝节长度（LKWB）,果实直径（DF）,雄蕊长度（SL）,同化枝枝节长度（LKAS）和同化枝化枝角度（ARAS）指标在沙拐枣属植物的数值分类上,具有很强的差异性分析意义。依据平方欧氏距离,应用类平均法（UPGMA）将19种沙拐枣植物聚为5类,系统聚类结论与主成分分析的三维排序结果基本一致,与传统的形态分类结果有一定的差异。     

New species of Justicia (Acanthaceae) from the Guianas

Four new species,Justicia oldemanii, J. mcdowellii, J. wilhelminensis, andJ. prevostiae are described, illustrated, and compared with their closest relatives. A key to species ofJusticia from the Guianas is also provided.     

A proposal to regard the former family Naididae as a subfamily within Tubificidae (Annelida, Clitellata)

A new species of Placobdelloides is described from crocodiles and river turtles in the Singapore Zoological Gardens. Placobdelloides stellapapillosa is three annulate, has one pair of eyes on somite I or II, six pairs of testisacs, two annuli between the gonopores, one post anal annulus, seven pairs of lobed crop caeca and 12–14 unique star-shaped papillae on the dorsal surface of each annulus. Star-shaped papillae on annulus a2 are typically larger and more pronounced than on annuli a1 and a3. Additional minute cone-shaped papillae may occur between the larger star-shaped papillae or may replace these papillae on annuli a1 and a3. Eggs and young (100–200) are attached by their posterior suckers directly to the ventral surface of the parent.     

Description of a new subgenus and a new species of Thamnocephalus (Crustacea: Branchiopoda,Anostraca) from the Salinas Grandes Basin,Córdoba Province,Argentina

At present, the American genus Thamnocephalus has three species, recorded from several states of U.S.A., México and Venezuela: Thamnocephalus platyurus Packard, T. mexicanus Linder and T. venezuelensis Belk & Pereira. The new species Thamnocephalus salinarum, from a turbid saline temporary pond inside the Salinas Grandes of Córdoba, Argentina is described here. The new species differs from all other congeners by the presence in the male, of an unbranched frontal appendage and a pair of soft cordiform parapenial lobes; also, by the sexually dimorphic caudal fin-like lobe. This new species may represent a new genus, however since only five specimens were collected it was not possible to observe if the penial ornamentation conforms to the Thamnocephalus type. Therefore, a conservative position is taken until new material allows proper analysis, by keeping the new species in the genus Thamnocephalus under the new subgenus Simplicephalus.