跳甲的食性及食性分化

跳甲隶属于鞘翅目叶甲科跳甲亚科,是一类具有重要经济意义的植食性昆虫。本文对跳甲食性及食性分化的研究进展进行了综述,诠释了寄主植物的概念,分析了昆虫食性专化发生的原因。跳甲亚科的寄主植物的范围虽广,但有85%的属为专食性属。一般认为,专食性的跳甲亚科和萤叶甲亚科是由食性较广的叶甲亚科进化而来的,食性分化在其中可能起了重要作用。广食性代价推动了食性分化的发生,广食性代价假说受到越来越多的实验支持。有关食性分化方向的观点倾向于寄主植物转向化学物质相似的植物,表现为寄主转移、寄主扩张和形成寄主型等;食性分化推动了同域物种形成。跳甲食性分化的研究对于丰富研究昆虫与植物相互关系的协同进化理论也有重要作用。     

虎斑蝶实验种群生物学特征研究

[目的]记述了云南元江虎斑蝶Danaus genutia(Cramer)种群的全虫期形态特征、幼期发育历期、在云南昆明温室中的代生活史和生殖力、寄主范围、成虫及幼虫的行为习性,为该高观赏价值蝶种的规模化养殖提供依据。[方法]通过在气候箱内单虫饲养观察个体发育史,建立温室实验种群收集种群生活史资料,结合实验种群和野生个体观察了解幼虫和成虫习性;根据成虫对多种植物的同时选择产卵、成虫对单种植物的顺序选择产卵及幼虫取食和发育情况判定幼虫寄主植物。[结果]在25℃恒温条件下,虎斑蝶从卵到成虫羽化历时22~27 d;在温室自然变温条件下(16.5~36.4℃),雌成虫从卵发育至产卵需35~40 d;成虫雌雄性比为1:1.26,单雌平均产卵量为64.84粒;虎斑蝶元江种群的唯一确认寄主为鹅绒藤属的两种植物,青羊参Cynanchum otophyllum和峨眉牛皮消C.giraldii。[结论]虎斑蝶元江种群中存在明显的体表色斑多态性,这种警戒色多态性可能是地理种群间基因交流的结果,也可能是种群内的稳定多态性,有待进一步研究;除了萝藦科鹅绒藤属的2种植物,其他多种被文献报道为虎斑蝶寄主的植物被证明非元江虎斑蝶种群的寄主植物。     

寄主植物物理性状及营养物质对地红蝽寄主选择性的影响

【目的】地红蝽Pyrrhocoris tibialis是一种重要的农业植食性害虫,寄主范围广泛。本研究测定地红蝽对不同植物的取食偏好及分析寄主植物物理性状和营养物质在地红蝽成虫寄主选择行为中的作用,以期从寄主理化性状的角度来探讨地红蝽寄主选择行为机制,为指导作物抗虫育种提供依据。【方法】通过自由选择方法研究地红蝽成虫对5种寄主植物(谷子Setaria italica、高粱Sorghum bicolor、绿豆Vigna radiata、大豆Glycine max和玉米Zea mays)叶片的取食选择性;使用Y型嗅觉仪进一步检测地红蝽对5种植物叶片气味的趋性反应;测定分析5种植物叶片物理性状及主要营养物质含量与地红蝽取食选择性的相关性。【结果】地红蝽成虫对5种寄主植物叶片的取食选择率存在显著性差异,依次为谷子＞高粱＞绿豆＝大豆＞玉米,与对这5种寄主植物叶片气味的趋性反应百分率结果一致。相关性分析表明,地红蝽成虫的取食选择性与叶片长宽比、含水量和背面茸毛密度呈显著正相关,相关系数分别为0.881, 0.884和0.906,而与地红蝽成虫取食前后寄主植物叶片可溶性糖含量变化和总蛋白质含量变化呈显著负相关,相关系数分别为-0.915和-0.951。通径分析表明,寄主植物叶片背面茸毛密度和总蛋白质含量变化是地红蝽寄主选择性的重要决定因素。【结论】地红蝽成虫对不同寄主植物存在取食选择和趋向性差异,地红蝽成虫取食选择与寄主植物叶片长宽比、背面茸毛密度、含水量以及可溶性糖和总蛋白质含量变化有关。     

草地贪夜蛾对2种豆科蔬菜的取食和产卵选择性及其适应性研究

草地贪夜蛾Spodoptera frugiperda是一种多食性昆虫,为明确该害虫对不同寄主的选择性和适生性,本文比较了草地贪夜蛾对玉米Zea mays、豇豆Vigna unguiculata和四季豆Phaseolus vulgaris等3种寄主的取食及产卵偏好性,并分析了取食不同寄主对其生长发育及繁殖的影响。结果表明：草地贪夜蛾低龄幼虫（初孵幼虫和2龄）对玉米叶和豇豆叶表现出取食偏好性,而高龄幼虫（3龄和5龄）对3种寄主不同组织的取食选择性无明显差异;草地贪夜蛾取食3种寄主植物均可以完成世代发育,但取食豇豆叶和四季豆叶的幼虫历期、蛹历期显著变短,化蛹率、羽化率显著降低;取食豇豆叶对其蛹重、成虫寿命无显著影响,但取食四季豆叶的蛹重显著变轻、雄成虫寿命显著变短;种群生命表参数显示,草地贪夜蛾在3种寄主上的繁殖力表现为玉米叶（1 138.29）>豇豆叶（1 179.00）>四季豆叶（585.50）,处理间差异显著;取食2种非嗜好寄主的种群内禀增长率（rm）和周限增长率（λ）均显著降低,平均世代历期（T）显著延长,取食豇豆叶的雌雄性比显著降低;草地贪夜蛾对寄主玉米具有明显的产卵偏好性,选择豇豆和四季豆的产卵量仅占植物着卵量的4.19%和18.23%,显著低于玉米着卵量。结果表明草地贪夜蛾偏好选择玉米进行取食和产卵,但在豇豆和四季豆寄主植物上可以实现种群繁衍,当其种群密度大时存在转移为害豇豆和四季豆的潜在风险。     

寄主植物轮换饲养和次生代谢物交叉涂布对棉铃虫取食的影响

食物混合通常对多食性昆虫的生长表现有积极的影响,然而此前的研究对象主要是成虫期和幼虫期迁移能力较强的种类。某些鳞翅目种类尽管是多食性的,但其幼虫个体因时空隔离的原因,并无机会自由选择食料寄主。采用寄主叶片轮换饲养和次生代谢物交叉涂布两种方法研究了多食性棉铃虫幼虫的取食行为,供试寄主植物包括烟草、辣椒、番茄和棉花,次生代谢物采用自然浓度进行交叉涂布。结果表明,食物混合并没有造成幼虫总体摄食量的显著增加。其中,烟草和水合烟碱能显著抑制棉铃虫对其他寄主叶碟的取食,而辣椒及(E)-辣椒素对其他寄主叶碟的被食量均无影响。番茄叶片轮换饲养不影响棉铃虫对与其轮换的其他寄主叶片的被食量,但α-番茄苷涂布在辣椒和棉花叶碟上则对棉铃虫有显著拒食作用。棉花-烟草轮换饲养组中的烟草被食量显著大于烟草非轮换组中的烟草被食量,但(+)-棉酚涂布处理却能显著抑制棉铃虫对烟草的摄食。两种生物测定方法均未发现棉花与辣椒存在显著性相互影响。总之,棉铃虫可能是以耐受式的对策适应寄主植物次生代谢物的,符合相称性形态构成假说,即扩散能力较差的鳞翅目幼虫个体并不需要进化出同时应对来自两种或两种以上的寄主植物次生代谢物的适应机制。     

中国细蛾科寄主植物多样性分析

【目的】总结中国细蛾科(Gracillariidae)寄主植物的种类,分析细蛾多样性与其寄主植物多样性之间的关系。【方法】依据国内外已有的文献资料,统计中国细蛾科寄主植物的种类;应用SPSS19. 0分析细蛾及其寄主植物多样性关系的数据。【结果】在中国,有寄主植物记载的细蛾149种,隶属4亚科37属;记载的寄主植物有435种,隶属49科153属,以豆科、壳斗科、杨柳科、蔷薇科、大戟科、蓼科和芸香科为主;寄主植物以被子植物中的双子叶植物为主,单子叶植物仅有3科,裸子植物只有1科。细蛾亚科的寄主植物种类最丰富,有43科129属430种,潜细蛾亚科的次之,有12科29属87种,叶潜蛾亚科的有5科10属38种,毛脉细蛾亚科的寄主植物种类最少,有4科5属7种。在细蛾的属级阶元,寄主植物多于2个科的细蛾有14个属;寄主植物种类最多的是丽细蛾属Caloptilia,有18科37属111种,潜细蛾属Phyllonorycter次之,有10科18属68种;寄主植物为单科、单属和单种的细蛾分别有23,10和5属。不同寄主植物上细蛾的种类也有差别,在寄主植物科级阶元,被2个属以上细蛾取食的寄主植物有22个科,其中豆科植物上细蛾属数最多,有14个属,大戟科和壳斗科植物上的细蛾属数次之,分别有8和7属;在属级阶元,有37属植物可被2属以上的细蛾取食,其余116属植物分别只被1属细蛾取食。相关性分析结果表明,在亚科级和属级阶元中,细蛾种数与寄主植物的科、属、种数均呈极显著正相关关系(R~2 0. 60,P 0. 01)。【结论】细蛾种类越丰富其寄主植物的范围就越广泛。总的来说,细蛾食性范围较为狭窄,以单食性和寡食性为主。     

植食性昆虫寄主植物嗅觉搜寻述介

植食性昆虫与寄主植物关系的本质是化学。植食性昆虫搜寻寄主的嗅觉媒介是植物气味即化学信息物质。在介绍植物气味构成及其扩散模型基础上，阐述了植物气味在地上植食性昆虫成虫、幼虫和地下植食性昆虫搜寻寄主过程中的嗅觉导向作用，并指出了今后相关研究需要注意的问题。从植物与环境因子的关系来看，植物气味包括构成性气味和诱发性气味两类，这两类气味的概念既相联系而又不同。构成性气味组分及构成因植物分类地位等而不同。诱发性气味组分因植食性昆虫取食、植物病原微生物、机械致伤等因子的胁迫而变化，这种变化性状随植物属和/或种、植株生长发育阶段、胁迫因子性质及其作用方式而不同。无论是哪种植物气味，其释放均具有节律性。气味扩散过程比较复杂，扩散状态可用数学模型表征。对于地上植食性昆虫成虫，植物气味对其寄主搜寻行为具有导向特异性，重点分析了这种特异性形成的两个假说；鳞翅目昆虫幼虫，能够利用植物化学信息物质趋向寄主植物或回避非寄主植物；地下植食性昆虫搜寻寄主，既与寄主植物地下组织释放或分泌的次级代谢物有关，又与一些初级代谢物有关。初级代谢物中的CO₂,起着“搜寻触发器”作用。有助于增强人们对昆虫与植...     

新疆阿勒泰地区草地植物的白粉菌和锈菌(Ⅰ)

通过对新疆阿勒泰地区草地植物的白粉菌和锈菌进行形态分类鉴定研究,报道该地区白粉菌22种,隶属于5族6属,其中白粉菌新记录寄主植物18种;报道锈菌23种,隶属于2科4属,其中锈菌新记录寄主植物1种。文中提供了真菌名录,包括寄主、采集地点和标本号。     

寄主植物的功能性状对桑寄生寄主专一性的影响初探

为探讨寄主多样性和寄主功能性状对桑寄生植物的寄主专一性的影响,调查了西双版纳热带植物园内桑寄生和寄主植物种类。结果表明,桑寄生植物共有2科5属6种1变种,感染隶属于58科190属286种寄主植物1 323株。桑寄生在不同生境的寄生强度具有极显著差异(P0.01),单一种植园的寄生强度最高,而在森林的分布最少。不同种类桑寄生的寄主范围存在较大差异,专一性程度(H′)为1.92～7.05,多度较高的植物更容易被感染。冗余分析表明,寄主植物的胸径、树皮含水量和树皮粗糙度对不同桑寄生的寄主利用差异有显著影响,而木质密度和树皮pH的影响不显著。因此,不同种类桑寄生在热带植物群落的寄主专一性程度有较大差异,对寄主植物特定功能性状的偏好能解释部分差异。     

植食性昆虫的学习行为

学习是指因经历不同而导致的行为变化。在植食性昆虫中,学习主要包含习惯性反应、厌恶性学习、联系性学习、敏感性反应和嗜好性诱导等类型。昆虫在幼虫和成虫期都具有学习能力,但幼虫期食料和取食经历不会对成虫行为产生直接影响。昆虫学习行为的表现受其本身食性、寄主刺激物的类别及寄主植物时空分布动态等因子的影响。学习能力有助于植食性昆虫应对复杂多变的植物环境,提高对寄主植物的利用效率,有利于其生存繁衍。对害虫学习行为的了解可为栖境调控、行为调控等害虫治理方法提供重要     

Host-associated allozyme variation in tree cambium miners,Phytobia spp. (Diptera: Agromyzidae)

The larvae of the agromyzid flies that belong to the genus Phytobia Lioy feed by mining in the differentiating xylem just below the cambium of growing forest trees. The genus, which is apparently one of the most primitive groups in the Agromyzidae, comprises over 50 currently recognized species. Most of the species are mono- or oligophagous, and the host plants belong to numerous genera in about 60 families. Thus, Phytobia is an attractive candidate for studies on the evolution of insect-plant relationships. In spite of this, the taxonomy of Phytobia is currently poorly understood, mainly because the morphological differences between species are small. We used allozyme electrophoresis to investigate whether molecular markers could be used to separate and identify species in Phytobia, and to study the patterns of host use in the group. For this, we collected Phytobia larvae from eight host tree species occurring in southern Finland. An analysis of 10 variable allozyme loci showed that there are probably five species of Phytobia that feed on the hosts included in our study: one occurs on birches (Betula pubescens Ehrh. and B. pendula Roth) and alders (Alnus incana (L.) Moench and A. glutinosa (L.) Gaertn.), one on rowan (Sorbus aucuparia L.), and three species with overlapping feeding ranges on aspen (Populus tremula L.) and two willow species (Salix phylicifolia L. and S. caprea L.). Because birches and alders belong to the plant family Betulaceae, rowan to Rosaceae, and aspen and willows to Salicaceae, the host associations of the individual fly species can be explained by the taxonomic affinities of the hosts. However, our results also show that on a larger scale the evolution of host-plant associations in Phytobia cannot be explained by strict parallel cladogenesis (cospeciation) between the flies and their hosts.     

Phylogenetic analyses of DNA and allozyme data suggest that Gonioctena leaf beetles (Coleoptera; Chrysomelidae) experienced convergent evolution in their history of host-plant family shifts

A phylogenetic analysis of the genus Gonioctena (Coleoptera, Chrysomelidae) based on allozyme data (17 loci) and mitochondrial DNA sequence data (three gene fragments, 1,391 sites) was performed to study the evolutionary history of host-plant shifts among these leaf beetles. This chrysomelid genus is characteristically associated with a high number of different plant families. The diverse molecular data gathered in this study are to a large extent congruent, and the analyses provide a well-supported phylogenetic hypothesis to address questions about the evolution of host-plant shifts in the genus Gonioctena. The most-parsimonious reconstruction of the ancestral host-plant associations, based on the estimated phylogeny, suggests that the Fabaceae was the ancestral host-plant family of the genus. Although most of the host-plant shifts (between different host species) in Gonioctena have occurred within the same plant family or within the same plant genus, at least eight shifts have occurred between hosts belonging to distantly related and chemically dissimilar plant families. In these cases, host shifts may have been simply directed toward plant species available in the environment. Yet, given that two Gonioctena lineages have independently colonized the same three new plant families (Salicaceae, Betulaceae, Rosaceae), including four of the same new genera (Salix, Alnus, Prunus, Sorbus), some constraints are likely to have limited the different possibilities of interfamilial host-plant shifts.     

Host plant use in sympatric closely related flea beetles

Studies on strategies of host plant use in sympatric-related species are significant to the theory of sympatric speciation. Altica fragariae Nakane and Altica koreana Ogloblin are sympatric closely related flea beetles found in Beijing, northern China. All their recorded host plants are in the subfamily Rosoideae of the Rosaceae, so we regard them as a model system to study interactions between herbivorous insects and plant-insect co-evolution. We conducted a set of experiments on the host preference and performance of these flea beetles to study whether these closely related species have the ability to use sympatric novel host plants and whether monophagous and oligophagous flea beetles use the same strategy in host plant use. Oviposition preference experiments showed that A. koreana, a monophagous flea beetle, displayed high host fidelity. However, A. fragariae, which is oligophagous, often made "oviposition mistakes," ovipositing on nonhost plants such as Potentilla chinensis, the host plant of A. koreana, although normal host plants were preferred over novel ones. Larval performance studies suggested that A. fragariae was able to develop successfully on P. chinensis. Feeding experiences of larvae had no effect on feeding preference, oviposition preference, and fecundity of adults. However, females were impaired in their reproductive ability when fed on nonhost plants. Therefore, A. fragariae finished their development of larval stages on P. chinensis and came back to their primary host plant, Duchesnea indica, for feeding and reproduction after eclosion.     

Host shifts from Lamiales to Brassicaceae in the sawfly genus Athalia

Plant chemistry can be a key driver of host shifts in herbivores. Several species in the sawfly genus Athalia are important economic pests on Brassicaceae, whereas other Athalia species are specialized on Lamiales. These host plants have glucosides in common, which are sequestered by larvae. To disentangle the possible direction of host shifts in this genus, we examined the sequestration specificity and feeding deterrence of iridoid glucosides (IGs) and glucosinolates (GSs) in larvae of five species which either naturally sequester IGs from their hosts within the Plantaginaceae (Lamiales) or GSs from Brassicaceae, respectively. Furthermore, adults were tested for feeding stimulation by a neo-clerodane diterpenoid which occurs in Lamiales. Larvae of the Plantaginaceae-feeders did not sequester artificially administered p-hydroxybenzylGS and were more deterred by GSs than Brassicaceae-feeders were by IGs. In contrast, larvae of Brassicaceae-feeders were able to sequester artificially administered catalpol (IG), which points to an ancestral association with Lamiales. In line with this finding, adults of all tested species were stimulated by the neo-clerodane diterpenoid. Finally, in a phylogenetic tree inferred from genetic marker sequences of 21 Athalia species, the sister species of all remaining 20 Athalia species also turned out to be a Lamiales-feeder. Fundamental physiological pre-adaptations, such as the establishment of a glucoside transporter, and mechanisms to circumvent activation of glucosides by glucosidases are therefore necessary prerequisites for successful host shifts between Lamiales and Brassicaceae.     

Host Plants of Brevipalpus californicus, B. obovatus, and B. phoenicis (Acari: Tenuipalpidae) and their Potential Involvement in the Spread of Viral Diseases Vectored by these Mites

The family Tenuipalpidae has over 622 species in 30 genera described worldwide. A total of 928 plant species in 513 genera within 139 families are recorded hosts of one or more of the following species: Brevipalpus californicus (Banks), B. obovatus Donnadieu, and B. phoenicis (Geijskes). B. californicus has 316 plant species reported as hosts compared with 451 and 486 host plants for B. obovatus and B. phoenicis, respectively. There are 67 genera of plants within 33 families that are reported hosts of only B. californicus, 119 genera within 55 plant families that are hosts of only B. obovatus, and 118 genera of plants within 64 families that are hosts of only B. phoenicis. There are 14 genera of plants within 12 families that are hosts to both B. californicus and B. obovatus, while there are 40 genera of host plants within 26 families that are hosts for both B. californicus and B. phoenicis. A total of 70 genera of host plants within 39 families have been reported as hosts of both B. obovatus and B. phoenicis, while 77 genera of plants within 44 families have been reported as hosts of all three Brevipalpus species. Geographical differences in the three species of Brevipalpus identified on different plant species within the same genus are common.     

Eriophyoid Mites (Acariformes,Eriophyoidea) from Rosaceae: Taxonomic Diversity,Host-Parasite Relationships,and Ability to Cause Galls

A review on the complex of species of eriophyoid mites associated with Rosaceae is given, focused on the phylogeny, biology, and distribution of their host plants and galls induced by these mites. About 200 species of 39 genera from 3 families ofEriophyoidea are known from Rosaceae. Among them, 6 species from 2 genera belong to Phytoptidae, 178 species from 27 genera, to Eriophyidae, and 28 species from 10 genera, to Diptilomiopidae; 7 genera of the latter family are represented on Rosaceae by a single species each. The ability to induce galls is discussed using the example of the most widespread and numerous genera of the family Eriophyidae from Rosaceae. Mites of two large subfamilies, Eriophyinae and Phyllocoptinae, include both vagrant and concealed forms. The types of galls caused by mites are related to the systematic position of mites and the distribution of mites and their host plants. The hypothesis of host shifts of eriophyoid mites from other plant families to Rosaceae is considered. Most of the species which presumably switched to Rosaceae have been described from Southeast Asia. Morphological similarity between vagrant and concealed forms from the paraphyletic tribes Eriophyini and Phyllocoptini, and also Aceriini and Anthocoptini is discussed. Their pairwise similarity might be the result of evolution (Eriophyini → Phyllocoptini and Aceriini → Anthocoptini) connected with change oflife style.     

色季拉山区高山寒带种子植物区系研究

通过对西藏色季拉山高山寒带进行实地野外调查,鉴定统计得到种子植物285种,分属于33科103属,其中双子叶植物有26科、77属、236种,裸子植物有1科、1属、4种,中国特有植物125种。对该区域种子植物区系从科、属、种三级水平统计分析,初步探讨了其植物区系的性质和基本特点。地理成分简单,但特有现象明显,在种类上缺乏古老、原始的类型;从科、属和种的分布类型统计分析,基本上都是温带成分,反映出典型的温带区系特征和区系的年青性,因而具有高寒区系的显著特色。在区系成分中存在较多中国-喜马拉雅成分,表明了该区系具有明显的高原及高山植物区系的特色。     

Phylogeny and host-plant association in the leaf beetle genus Trirhabda LeConte (Coleoptera: Chrysomelidae)

The leaf beetle genus Trirhabda contains 26 described species from the United States and Canada, feeding on host plants from the families Asteraceae and Hydrophyllaceae. In this study, we present a phylogeny for the genus that was reconstructed from mitochondrial COI and 12S rRNA fragments, nuclear ITS2 rRNA, and morphological characters. Both parsimony and mixed-model Bayesian likelihood analyses were performed. Under both methods, the mitochondrial and nuclear partitions support the same backbone phylogeny, as do the combined data. The utility of the molecular data is contrasted with the low phylogenetic signal among morphological characters. The phylogeny was used to trace the evolution of the host-plant association in Trirhabda. The recovered phylogeny shows that although the host-plant association is phylogenetically conservative, Trirhabda experienced one shift to a distantly related host-plant family, 6 shifts between host-plant tribes, and 6 between genera within tribes. The phylogeny reveals that Trirhabda were plesiomorphically adapted to tolerate complex secondary compounds of its host plants and this adaptation is retained in Trirhabda species, as evidenced by multiple shifts from chemically simpler host plants back to the more complex host plants.     

跳甲属(鞘翅目,叶甲科,跳甲亚科)同域分布种及其寄主关系探讨

研究发现,取食蔷薇科植物的3种跳甲,即蛇莓跳甲 A.fragariae、地榆跳甲A.sanguisobae和委陵跳甲A.koreana并不是最近缘物种,它们的"母种"和"子种"关系在这一系统中并不受支持.依据分子系统树,地榆跳甲与蛇莓跳甲分别是独立的物种;尽管委陵跳甲和A.ampelophaga亲缘关系最近,但综合考虑二者地理分布特点和食性差异,我们仍主张将它们作为2个独立的物种对待.     

Jumping plant lice (Homoptera: Psylloidea) of the temperate neotropical region. Part 1: Psyllidae (subfamilies Aphalarinae, Rhinocolinae and Aphalaroidinae)

The psyllid-fauna of temperate and subantarctic South America comprises members of three families: Calophyidae, Triozidae and Psyllidae. Three subfamilies of the Psyllidae are revised in this paper: the Aphalarinae are represented by two species in two genera, one of which develops on Aquifoliaceae; the Rhinocolinae are represented by two congeneric species on Anacardiaceae while the Aphalaroidinae contain 38 species in seven genera trophically linked to the Compositae, Euphorbiaceae, Leguminosae, Myzodendraceae, Rhamnaceae, Solanaceae and Zygophyllaceae. The family Psyllidae (= Aphalaridae syn. nov. , =Spondyliaspididae syn. nov. ) and the constituent subfamily Aphalaroidinae (= Arepuninae syn nov. , = Ciriacreminae auct. pp) are redefined. Three genera and 30 species are described as new and two new generic, two new specific synonyms, and five new combinations are proposed. Information on larvae and host plant relationships is also given. Lectotypes are designated for eight species and a type-species is fixed for one genus. Keys are provided for the identification to species.