Morphological evolutionary trends and their implications for the phylogenetic analysis of metendosternite in Chinese dung beetles (Coleoptera, Scarabaeidae)

后胸叉骨是昆虫胸部的内骨骼,是重要的肌肉联结点,在昆虫运中起着不可替代的作用.该结构在鞘翅目高级阶元系统发育关系重建中扮演了重要角色,但由于其在低级阶元间的差异较小以及在形态分析中使用困难等因素限制,致使后胸叉骨的研究并未受到广泛重视.国内学者对于甲虫后胸叉骨的研究非常少,甚至长期以来没有中文名称,相关内容只零星散布于教科书和学位论文中,针对蜣螂后胸叉骨形态学研究尚未见报道.本文对金龟科蜣螂亚科9族65种的后胸叉骨进行了详细的比较形态学研究,归纳了族级形态特征,进而探究蜣螂后胸叉骨形态演化趋势及其在系统发育分析中的意义.此外,还对利用现代形态学和几何形态学等方法研究后胸叉骨功能形态的前景进行了阐述.     

蜣螂后胸叉骨形态演化趋势及其在系统发育分析中的意义(鞘翅目:金龟科)

后胸叉骨是昆虫胸部的内骨骼,是重要的肌肉联结点,在昆虫运动中起着不可替代的作用。该结构在鞘翅目高级阶元系统发育关系重建中扮演了重要角色,但由于其在低级阶元间的差异较小以及在形态分析中使用困难等因素限制,致使后胸叉骨的研究并未受到广泛重视。国内学者对于甲虫后胸叉骨的研究非常少,甚至长期以来没有中文名称,相关内容只零星散布于教科书和学位论文中,针对蜣螂后胸叉骨形态学研究尚未见报道。本文对金龟科蜣螂亚科9族65种的后胸叉骨进行了详细的比较形态学研究,归纳了族级形态特征,进而探究蜣螂后胸叉骨形态演化趋势及其在系统发育分析中的意义。此外,还对利用现代形态学和几何形态学等方法研究后胸叉骨功能形态的前景进行了阐述。     

蚜虫系统发育研究进展

文中简单回顾了蚜虫分类学研究和蚜虫高级阶元系统关系研究的历史,比较分析了有代表性的蚜虫类高级阶元系统发育关系,总结出现有系统发育关系中普遍存在的共识和争议:共识是将具有卵生生殖方式的球蚜类和根瘤蚜类与其它具有卵胎生生殖方式的蚜虫区分开,进而将之视为最古老的蚜虫支系;而主要的争议在于大蚜类、毛蚜类和扁蚜类的系统地位,以及几个相关类群间的亲缘关系,如短痣蚜类和大蚜类间的关系,斑蚜类、纩蚜类和群蚜类间的关系等.在研究进展中还介绍了分子生物学方法在蚜虫系统发育研究中的尝试,虽然其研究结果还未能完全解决上述问题,但必将是对现有研究方法的补充.     

鞘翅目高级阶元分子系统学： 研究现状及存在的问题

鞘翅目是世界上物种最丰富的类群, 分为原鞘亚目（Archostemata Kolbe, 1908）、 藻食亚目（Myxophaga Crowson, 1955）、 肉食亚目（Adephaga Schellenberg, 1806）和多食亚目（Polyphaga Emery, 1886）。随着分子生物学的发展,分子系统学的技术被广泛应用于鞘翅目系统学研究中。本文综述了鞘翅目高级阶元的分子系统学的研究进展及存在问题。基于分子生物学手段, 分子分类学家提出了关于鞘翅目高级阶元分子系统学很多假说, 分子分析结果支持鞘翅目的4个亚目各为单系, 而亚目间的系统关系还不统一。基于分子手段对于亚目内的系统发育关系的研究也有了一定的进展, 比如： 分子系统学结果支持肉食亚目的水生类群和陆生类群分别为单系, 水生类群为一次起源。目前, 鞘翅目高级阶元分子系统学的研究还不够成熟和完善, 主要表现为： 材料选择有限且不均衡、 基因数目和适合度不理想, 以及一些关键节点研究的欠缺。     

蚜虫与其初级内共生菌进化关系: 假说及演化机理

蚜虫是半翅目(Hemiptera)中一类取食植物韧皮部汁液的昆虫, 由于具有一些独特的生物学特征, 是研究重要适应进化问题的理想模型。蚜虫体内存在一类专性的胞内共生菌Buchnera, 对于蚜虫营养代谢和正常发育有重要贡献, 被称为蚜虫的初级内共生菌。蚜虫-Buchnera是研究共生关系的理想模型, 两者系统发育格局的研究有助于理解生物间专性共生关系的演化。本文系统综述了两者在不同分类水平（高级阶元、 低级阶元）上的系统发育关系研究。现有证据暗示： 两者在低级阶元水平上具有系统发育一致性, 而在高级阶元水平上可能没有平行演化关系, 这些对早期研究提出的平行演化假说提出了质疑。在现有研究的基础上, 本文建议从增加取样类群、 增加基因数目和数据量、 系统发育一致性检验等几个方面开展更深入的系统发育研究, 并开展Buchnera的转移实验, 从而检验Buchnera的横向转移及其基因在不同蚜虫支系中的进化速率一致性, 以便更客观地揭示蚜虫-Buchnera的进化关系。     

雀形目高级阶元分类与起源研究概况

对雀肜目鸟类高级阶元的分类和系统发育的研究进行了简要概述.经典分类与应用分子生物学方法建立的分类系统在高级阶元(总科)有较大差异,但科级的分类基本一致.在雀形目鸟类起源研究方面,古生物学研究结果认为其起源于劳亚古陆;而分子生物学的证据则认为其起源于冈瓦纳古陆.由于化石的证据与"分子钟"的推测年代相差较大,因此对雀形目鸟类的起源还存在争议,但是目前的研究更倾向于"冈瓦纳起源"假说.     

基因序列在小蜂总科分子系统发育研究中的应用

总结了线粒体基因和核基因在膜翅目小蜂总科分子系统发育研究中的应用.核基因中,28S rDNA序列应用最广泛,探讨的问题从种级到科级不等;其次是ITS序列,主要用于探讨种及种级以下阶元问题;18S rDNA适于探讨科级以上高级阶元的问题.线粒体基因中,16S rDNA和3个蛋白编码基因COⅠ、COⅡ和Cytb,主要用于属种级系统发育关系研究.核基因间、线粒体基因间、核基因和线粒体基因间以及分子数据和形态数据间进行的联合分析,在解决不同层次的问题中均有应用.建议对更多的小蜂类群测定线粒体基因和核基因的序列,不断寻找新的基因对小蜂分子系统发育研究进行充实和拓展.     

伊朗一沼泽中水生甲虫体长与体重的关系(英文)

本研究所用标本为7种水生甲虫,均采自伊朗Choghakhor沼泽。通过对水生甲虫的体长和体重的测量,研究其体长-体重关系(LWR)。结果表明: LWR参数b的变动范围在2.315~3.117之间。所有被观察的水生甲虫体长与体重关系明显,相关系数(r²)均高。本研究所得到的这种相互关系可被用于确定甲虫体重,并有助于解决其他的一些生态学问题。本研究所提出的体长-体重关系(LWR)限制于所观察到的标本体长范围。     

直突摇蚊亚科部分属28S rDNA D1序列的分子系统发育关系(双翅目,摇蚊科)

利用28S rDNA D1部分基因序列对直突摇蚊亚科代表性属级阶元进行了分子系统学研究。测定了12个内群属和2种外群的28SrDNAD1片段,并结合GenBank中3个同亚科种类该基因的同源序列进行了分析。采用2种建树方法(距离邻近法NJ和最大俭约法MP)分析了直突摇蚊亚科内属级分类单元的分子系统发育关系。结果表明,滨海摇蚊属Clunio位于系统发育树的基部,与该属营海洋生活的特殊性一致。心突摇蚊属和真开氏摇蚊属互为姐妹群,流环足摇蚊属和刀突摇蚊属互为姐妹群,此结果与基于形态学的系统发育研究相结果一致。其它属间的系统发育关系因尚无前人研究而有待做进一步研究。本研究同时证明28S rDNA D1基因片段在分析摇蚊科昆虫属级及属内阶元关系上具有一定的指导意义。     

蜡蝉总科(昆虫纲:半翅目)系统分类研究进展

蜡蝉总科隶属于半翅目头喙亚目,大致可分为18～21个科。中国记载16科。蜡蝉总科的科级系统发育关系一直存在着广泛争议,至今尚无一个为大多数学者所接受的分类系统。因此,研究蜡蝉总科的系统发育具有重要的理论价值。本文从种及种下阶元的分类鉴定、种上阶元的系统发育、生物地理学等方面对蜡蝉总科的分类研究进行综述。     

鞘翅目昆虫线粒体基因组研究进展

鞘翅目（Coleoptera）是世界上最具多样性的类群,具有很高的生态和形态多样性,这些多样性吸引了很多进化生物学家和分类学家的关注。随着分子生物学的发展,分子生物学技术广泛应用于鞘翅目系统学的研究,但随着研究的深入,简单的分子片段已经不能满足研究的需求,需要发掘更新的分子标记。近年来,线粒体全基因组已经成为鞘翅目分子系统学研究中很重要的分子标记之一,并广泛地应用于鞘翅目昆虫各个阶元的研究中。本文就鞘翅目线粒体全基因组的概况、研究进展及存在问题进行了总结和讨论。目前,鞘翅目线粒体基因组的研究主要包括物种线粒体基因组组成与结构、分子系统学和分子进化等方面。线粒体基因组在解决系统发育和进化方面表现出了很多的优越性,然而也存在着一些缺点,如序列难获得、基因类型单一、各基因进化速率不同、应用较局限等。     

Genosystematics and new insight into the phylogeny and taxonomy of liverworts

The current state of molecular studies in liverworts, including original data, was considered. The traditional concepts of the liverwort phylogeny and systematics have greatly changed as a result of recent molecular researches. The phylogenetic inferences from studies of different DNA loci of different species sampling are mainly congruent. The phylogeny and systematics of the suborder Jungermaniineae, one of the largest and taxonomically difficult groups, is discussed on the basis of nucleotide sequence analyses of internal transcribed spacers 1 and 2 (ITS1-2) of nuclear rDNA and chloroplast trnL-F in a representative species sampling.     

Ecology has contrasting effects on genetic variation within species versus rates of molecular evolution across species in water beetles

Comparative analysis is a potentially powerful approach to study the effects of ecological traits on genetic variation and rate of evolution across species. However, the lack of suitable datasets means that comparative studies of correlates of genetic traits across an entire clade have been rare. Here, we use a large DNA-barcode dataset (5062 sequences) of water beetles to test the effects of species ecology and geographical distribution on genetic variation within species and rates of molecular evolution across species. We investigated species traits predicted to influence their genetic characteristics, such as surrogate measures of species population size, latitudinal distribution and habitat types, taking phylogeny into account. Genetic variation of cytochrome oxidase I in water beetles was positively correlated with occupancy (numbers of sites of species presence) and negatively with latitude, whereas substitution rates across species depended mainly on habitat types, and running water specialists had the highest rate. These results are consistent with theoretical predictions from nearly-neutral theories of evolution, and suggest that the comparative analysis using large databases can give insights into correlates of genetic variation and molecular evolution.     

步甲作为指示生物的研究进展

步甲是鞘翅目的重要类群之一,几乎分布于所有陆生生境。步甲与环境关系密切,不少学者认为可将其作为指示生物。目前国外关于步甲作为指示生物的研究很多,内容主要集中在探索生态系统的可持续管理和对整体环境质量的评估,而国内关于步甲的研究主要是区系分类和群落多样性研究,很少关于步甲对环境的指示作用报道。因此,深入研究步甲与环境的相互关系,在此基础上进一步研究其指示作用并应用于生态环境监测和评估之中十分重要。文章对近年来国内外关于步甲作为指示生物的相关研究工作进行概括和总结,对步甲作为指示生物的优点、环境因子对步甲的影响、步甲对环境变化的响应等进行简要评述,同时讨论步甲作为指示生物的研究中存在的一些问题以及该研究领域的发展前景。     

水生肉食亚目(Hydradephaga)系统发育学研究简论

水生肉食亚目(Hydradephaga)属于鞘翅目Coleoptera,是一类具有水生习性的食肉性真正水生甲虫(True water beetles)。在真正水生甲虫的系统分类中存在三种假说,一种是肉食亚目(Adephaga)位于该系统的基部,一种是多食亚目(Polyphaga)位于该系统基部,第三种是藻食亚目(Myxophaga)位于该系统基部。最近研究结果更多倾向第一种假说。目前水生肉食亚目大约有5 500个种,200多个属,含8个科。水生肉食亚目的科间水平系统发育关系虽被广泛研究,但观点仍不统一。有代表意义的有三个假说,一是豉甲科(Gyrinidae)位于系统基部,接下来是龙虱科(Dytiscidae)、两栖甲科(Amphizoidae)、水甲科(Hygrobiidae)、小粒龙虱科(Noteridae)与沼梭科(Haliplidae);二是沼梭科位于系统的基部;三是豉甲科位于系统的基部,接下来是沼梭科和龙虱总科(Dytiscoidea),其中龙虱总科由两栖甲科、水甲科、龙虱科、小粒龙虱科组成。目前根据形态学的分类,并结合分子系统学研究方法,第三种假说更符合水生肉食亚目的系统分类,也支持了水生肉食亚目作为一个单系,其祖先来自陆生的假说。     

Molecular phylogeny of the phylum Gastrotricha: new data brings together molecules and morphology

Gastrotricha is a species-rich phylum of microscopical animals that contains two main orders, Chaetonotida and Macrodasyida. Gastrotrichs are important members of the aquatic environment and significant players in the study of animal evolution. In spite of their ecological and evolutionary importance, their internal relationships are not yet well understood. We have produced new sequences for the 18S rDNA gene to improve both the quality and quantity of taxon sampling for the gastrotrichs. Our phylogeny recovers the monophyly of the two main Gastrotricha clades, in contrast to recent studies with similar sampling, but in agreement with morphology based analyses. However, our topology is not able to resolve the first branches of the macrodasyidans or settle the position of the puzzling Neodasys, a controversial genus classified as a chaetonotidan on morphological grounds but placed within macrodasyidans by molecular studies. This analysis is the most exhaustive molecular phylogeny of the phylum to date, and significantly increases our knowledge of gastrotrich evolution.     

Effect of cattail (<Emphasis Type="Italic">Typha</Emphasis> spp<Emphasis Type="Italic">.</Emphasis>) mowing on water beetle assemblages: changes of environmental factors and the aerial colonization of aquatic habitats

Some studies found no, or weak evidence that dense monotypic cattail (Typha spp.) stands exclude water beetle species from aquatic habitats, or modify aquatic beetle assemblages. Other studies suggest that cattail may reduce the chance of aerial water beetle colonization, and decreases water temperature; negatively affecting these insects. We examined the response of aquatic beetle assemblages to the mowing of cattail (Typha angustifolia L., T. latifolia L.) in a freshwater marsh. Following removal of cattail at the water level in experimental plots, aquatic beetles were sampled both in mowed and intact (control) plots weekly, through a month in the spring of 2008. Aquatic beetles were more abundant in mowed plots. Species richness was the same, but it showed different patterns in mowed and intact plots. Shannon’s diversity was similar between treatments, while evenness was lower in mowed plots. 29% of the aquatic beetles showed a strong preference for mowed plots, and 15% preferred the control plots. Water temperature was an important factor, with mowed plots having higher water temperatures because of increased solar radiation. Polarization visibility of the water surface was also a factor, since aerially colonizing (flying) aquatic beetles use horizontally polarized light reflected from the water surface to seek potential locations. Using imaging polarimetry, we showed that mowing strongly enhanced the water-reflected polarized light signal, because it reduced the screening effect of cattail leaves, which made the visual detection of water easier. Our results suggest that cattail mowing is a useful method in aquatic beetle conservation: it increases the chance of aerial colonization due to the enhanced polarization visibility of the water surface, and creates a habitat for more abundant assemblages otherwise excluded by the monodominant dense cattail stands. Thus, sustaining hemi-marsh conditions with vegetated and mowed areas is advisable to maximize overall aquatic beetle diversity.     

Characterization and mapping of sensilla on the head appendages of noterid larvae (Coleoptera: Noteridae), and development of a preliminary biometric method for taxa delimitation

Larvae of the burrowing water beetle family Noteridae are distributed worldwide and are often abundant in a broad range of aquatic habitats, playing an important role in structuring freshwater communities, yet they have remained among the most poorly studied groups of aquatic beetles. Studies on sensillar equipment of aquatic insect larvae are largely lacking, despite their potential use in phylogeny and biometric identification methods. In this article, the external morphology and distribution of sensilla on the head appendages of first instar larvae of selected genera of Noteridae were examined using scanning electron microscopy. Seven main types were distinguished based on their morphological structure: basiconica (3 subtypes), campaniformia (2 subtypes), chaetica (7 subtypes), coeloconica (6 subtypes), coniform complex (2 subtypes), placodea, and styloconica (3 subtypes). The apex of the labial palpus was found to be the most variable and informative region in regard to the number, relative position, and topology of sensilla. Fingerprint models were, therefore, generated for this region in each of the studied genera, allowing their identification.