花蝽科中国二新种及二新纪录种记述(半翅目,异翅亚目)

记述花蝽科Anthocoridae2新种:阿拉善肩花蝽Tetraphleps alashanensis sp.nov.,五斑肩花蝽Tetraphleps maculatus sp.nov.,小花蝽属Orius Wolff中国2新纪录种:细鞭小花蝽Orius laticollis laticollis(Reuter),西伯利亚小花蝽Oriussibiricus Wagner。模式标本保存于内蒙古师范大学昆虫研究所标本馆。     

军配盲蝽和南方小花蝽对茶网蝽若虫的捕食作用

茶网蝽Stephanitis chinensis是一种为害春茶的重要害虫,本文研究了天敌军配盲蝽Stethoconus japonicus和南方小花蝽Orius similis对茶网蝽的捕食能力,为茶网蝽的生物防治提供科学依据。在室内开展军配盲蝽和南方小花蝽对茶网蝽3龄若虫的捕食功能反应和寻找效应以及南方小花蝽的种内干扰反应研究。结果表明军配盲蝽和南方小花蝽对茶网蝽3龄若虫的捕食功能反应均符合Holling Ⅱ型。军配盲蝽和南方小花蝽的捕食量与茶网蝽3龄若虫的密度呈正相关,但寻找效应与猎物密度呈负相关。南方小花蝽成虫、3龄若虫对茶网蝽3龄若虫的日最大捕食量（11.49头、12.82头）大于军配盲蝽成虫、3龄若虫（10.10头、6.41头）;军配盲蝽成虫对茶网蝽的寻找效应高于其3龄若虫,而南方小花蝽3龄若虫的寻找效应高于成虫。南方小花蝽成虫、3龄若虫对茶网蝽3龄若虫的捕食作用均存在种内干扰反应,且符合Hassell模型,分别为E=0.4263P^-0.825和E=0.5234P^-0.762。综上研究结果,军配盲蝽和南方小花蝽对茶网蝽3龄若虫的捕食作用较强,均具有良好的生物防治潜能。     

二种活体饲料对东亚小花蝽生长发育和生殖的影响

本文比较了果蝇Drosophila melanogaster(Meigen)幼虫和西花蓟马Frankliniella occidentalis(Pergande)2种活体饲料对东亚小花蝽Orius sauteri(Poppius)生长发育和生殖的影响。结果显示:果蝇幼虫饲喂的东亚小花蝽幼虫发育历期12.36d,与西花蓟马饲喂的(12.19d)相近。果蝇幼虫饲喂的东亚小花蝽产卵量(89.58粒)与西花蓟马饲喂(95.72粒)相当。表明果蝇幼虫与传统活体饲料西花蓟马饲养东亚小花蝽的效果相当,可以很好的满足东亚小花蝽生长发育和生殖的要求。由于西花蓟马饲喂成本比较高,实际操作中有一定困难,果蝇幼虫是一种较为理想的活体饲料。     

小花蝽人工大量饲养研究进展

小花蝽Orius spp.食性广,能捕食蓟马、蚜虫、螨类、粉虱、棉铃虫、红铃虫、木虱、斜纹夜蛾等一些小型昆虫的卵和幼虫(若虫)等,且具有分布广、适应性强、数量多、捕食性强等特点,是一类很有价值的天敌昆虫.本文主要论述和分析了小花蝽人工大量饲养中的饲料、产卵基质、饲养条件和饲养工具等方面的研究应用现状及存在问题.     

五种植物作为南方小花蝽储蓄植物的适合性评价

储蓄植物系统作为一种开放式的天敌饲养系统,越来越多地应用到温室及田间的害虫防治.南方小花蝽 Orius similis Zheng可捕食蓟马、蚜虫等多种害虫,是农业上一类极具应用价值的捕食性天敌.为提高南方小花蝽的控害效果,建立南方小花蝽储蓄植物系统是一种极为有效的方法.为了筛选适用于南方小花蝽保育和增殖的储蓄植物,进而构建南方小花蝽储蓄植物系统,本研究选择了月季Rosa chinensis、长寿花Narcissus jonquilla、辣椒Capsicum annuum、黄瓜Cucumis sativus和蚕豆Vicia faba作为候选的储蓄植物,通过六臂嗅觉仪分析了南方小花蝽对5种植物花朵的气味选择性,同时分析了南方小花蝽在5种植物上的繁殖系数、发育历期、存活率等生物学参数.结果表明43.33％的南方小花蝽雌虫偏好辣椒花朵气味,其次为蚕豆(26.67％);南方小花蝽卵的孵化率在辣椒上最高达到95.59％,其次为蚕豆为80.74％;同时,南方小花蝽卵在蚕豆上的发育历期显著低于另外4种植物,仅有4.92 d.综上所述,本研究初步认为辣椒和蚕豆比较适合用来构建南方小花蝽储蓄植物系统.     

麦蛾卵对南方小花蝽生长发育和繁殖的影响

南方小花蝽Orius strigicollis作为一种广食性捕食性天敌昆虫,可高效控制蓟马、蚜虫及螨类等多种害虫,极具生防潜能.但目前国内南方小花蝽商业化进程相对滞后,其中未找到适合的饲料来源是主要的限制因素之一.本研究以新鲜麦蛾Sitotroga cerealella卵和紫外线处理的麦蛾卵作为饲养南方小花蝽的替代猎物,以南方小花蝽的天然猎物西花蓟马Frankliniella occidentalis为对照,通过比较其发育历期、存活率及寿命等生物学指标,组建生命表来评价麦蛾卵对南方小花蝽的饲喂效果.结果发现:以新鲜麦蛾卵、紫外处理麦蛾卵和西花蓟马饲喂的南方小花蝽若虫发育历期均无显著性差异,但取食新鲜麦蛾卵的南方小花蝽若虫存活率(60.5％)高于其他两种猎物;同时,饲喂新鲜麦蛾卵的南方小花蝽雌虫寿命(37.3 d)和雄成虫寿命(23.0 d)以及产卵量(74.0粒)均最高,其次是紫外处理麦蛾卵,而西花蓟马最低;饲喂新鲜麦蛾卵的南方小花蝽存活率、净增殖率(47.91)、内禀增长率(0.10)、周限增长率(1.11)和世代平均周期(36.5 d)均大于饲喂紫外处理麦蛾卵和饲喂西花蓟马,且种群加倍时间也以饲喂新鲜麦蛾卵的南方小花蝽最短(6.57 d).本研究结果表明麦蛾卵可作为南方小花蝽饲养的替代猎物,且以新鲜麦蛾卵为最佳.     

南方小花蝽对西花蓟马和蚕豆蚜的捕食作用

南方小花蝽Orius similis是多种小型害虫的重要天敌昆虫,为了掌握其控制潜能,本文研究了南方小花蝽对西花蓟马Frankliniella occidentalis和蚕豆蚜Aphis craccivora的捕食作用。研究结果表明南方小花蝽3～5龄若虫和雌成虫对西花蓟马和蚕豆蚜的功能反应均符合HollingⅡ型方程,南方小花蝽3～5龄若虫和雌成虫对西花蓟马2龄若虫的瞬时攻击率均高于蚕豆蚜。南方小花蝽5龄若虫对蚕豆蚜的控制能力比雌成虫强,而对西花蓟马的控制能力比雌成虫差。南方小花蝽5龄若虫对西花蓟马2龄若虫和蚕豆蚜的捕食率（E）随着捕食者自身的密度（P）的增加而下降,其干扰反应方程分别为E=0.412P-1.623和E=0.416P-1.639。南方小花蝽5龄若虫对西花蓟马2龄若虫和蚕豆蚜有明显的选择性,5龄若虫喜欢取食西花蓟马2龄若虫,但前期取食的猎物对其选择性有明显的影响,更喜欢选择前期取食过的猎物。     

海岛小花蝽对美洲棘蓟马的捕食作用研究

为了明确海岛小花蝽Orius maxidentex对美洲棘蓟马Echinothrips americanus的捕食情况及防治潜能,在27℃条件下研究了海岛小花蝽5龄若虫、雌成虫对美洲棘蓟马2龄若虫、伪蛹、成虫的捕食功能反应、自身密度干扰效应及喜好性。结果表明：海岛小花蝽对美洲棘蓟马的捕食功能符合HollingⅡ、HollingⅢ模型,采用HollingⅡ模型拟合,海岛小花蝽雌成虫及5龄若虫对美洲棘蓟马2龄若虫捕食能力(a′/Th)最强,分别为52.97和58.15,捕食上限最大,分别为47.38头/d和49.22头/d;采用HollingⅢ模型拟合,海岛小花蝽雌成虫及5龄若虫对美洲棘蓟马2龄若虫捕食上限最大,分别为27.50头/d和27.41头/d。海岛小花蝽在捕食时存在自身密度干扰情况,随着自身密度的增加单头捕食量逐渐减少,捕食作用率逐渐降低,分摊竞争强度逐渐增大,表明海岛小花蝽对美洲棘蓟马的捕食存在较强的种内干扰,符合Hassell-Varley干扰模型。捕食选择性试验表明,海岛小花蝽更偏向于捕食美洲棘蓟马2龄若虫,其次为成虫,对伪蛹偏好性最弱。综上所述,海岛小花蝽对美洲棘蓟马有较...     

东亚小花蝽对西花蓟马的控害能力评价

在实验室条件下,采用编制特定年龄生命表的方法,获得东亚小花蝽Orius sauteri和西花蓟马Frankliniella occidentalis的重要种群生物学参数,进而分析评价东亚小花蝽对西花蓟马的控害能力。结果表明：东亚小花蝽的净生殖力（22.6）和内禀增长率（0.1345）均大于西花蓟马（20.2、0.1225）。此外,东亚小花蝽的世代历期（23.17 d）和种群倍增时间（5.15 d）均小于西花蓟马（24.54 d、5.65 d）。另外,东亚小花蝽的单雌平均产卵量（61.8粒）大于西花蓟马（35.4粒）。综合上述研究结果说明,东亚小花蝽的种群扩繁速度大于西花蓟马,且具有控制西花蓟马种群增长的巨大潜力。     

南方小花蝽触角感器的扫描电镜观察

南方小花蝽Orius similis Zheng捕食能力较强,对田间多种小型害虫有明显的控制作用,是一类重要的捕食性天敌。本文利用扫描电镜分别对新羽化的南方小花蝽雌、雄成虫和5龄若虫的触角形态和感器进行了观察。结果发现,南方小花蝽雌、雄成虫以及5龄若虫触角均为线状,共4节,分为柄节、梗节和鞭节。触角上共有5种感器,分别为毛形感器、刺形感器、锥形感器、具弯钩形感器和耳形感器,其中毛形、刺形感器各有2个类型,耳形感器是首次在蝽类昆虫触角上发现。雌、雄成虫的触角存在性二型现象,雄成虫触角感器数量明显多于雌成虫;若虫的感器类型及数量比成虫少。不同类型的感器在触角各节上的数量与分布各不相同。本文以期深入了解其化学感受系统,为揭示南方小花蝽的寄主选择行为机制提供基础。     

蝽科精巢细胞减数分裂染色体行为及其反映的属种间亲缘关系

为探讨蝽科精巢细胞减数分裂各时期染色体形态和行为差异, 以及据此反映的属种间亲缘关系, 采用常规染色体制片法对蝽科6属9种精巢细胞减数分裂各期染色体形态特征、 行为及精子的形成进行了观察和比较研究。结果表明： 蝽科精巢细胞为交叉型减数分裂, “O”型交叉为其典型交叉减数分裂形式。各属种减数分裂各期染色体行为相似, 但形态不同。减数分裂各期染色体形态、 排列方式, 中期染色体相对长度、 组成与核型以及精子形态等特征具有属种间差异性。蝽科精巢细胞中期Ⅰ染色体组平均相对长度都为12.5, 在进化过程中染色体组长度信息总量不变。基于染色体相对长度的聚类分析结果显示, 菜蝽属Eurydema、 麦蝽属Aelia、 珠蝽属Rubiconia和条蝽属Graphosoma亲缘关系密切, 而二星蝽属Stollia与果蝽属Carpocoris关系较近。     

The pattern of phylogenomic evolution of the Canidae

Canidae species fall into two categories with respect to their chromosome composition: those with high numbered largely acrocentric karyotypes and others with a low numbered principally metacentric karyotype. Those species with low numbered metacentric karyotypes are derived from multiple independent fusions of chromosome segments found as acrocentric chromosomes in the high numbered species. Extensive chromosome homology is apparent among acrocentric chromosome arms within Canidae species; however, little chromosome arm homology exists between Canidae species and those from other Carnivore families. Here we use Zoo-FISH (fluorescent in situ hybridization, also called chromosomal painting) probes from flow-sorted chromosomes of the Japanese raccoon dog (Nyctereutes procyonoides) to examine two phylogenetically divergent canids, the arctic fox (Alopex lagopus) and the crab-eating fox (Cerdocyon thous). The results affirm intra-canid chromosome homologies, also implicated by G-banding. In addition, painting probes from domestic cat (Felis catus), representative of the ancestral carnivore karyotype (ACK), and giant panda (Ailuropoda melanoleuca) were used to define primitive homologous segments apparent between canids and other carnivore families. Canid chromosomes seem unique among carnivores in that many canid chromosome arms are mosaics of two to four homology segments of the ACK chromosome arms. The mosaic pattern apparently preceded the divergence of modern canid species since conserved homology segments among different canid species are common, even though those segments are rearranged relative to the ancestral carnivore genome arrangement. The results indicate an ancestral episode of extensive centric fission leading to an ancestral canid genome organization that was subsequently reorganized by multiple chromosome fusion events in some but not all Canidae lineages.     

Recombination,chromosome number and eusociality in the Hymenoptera

Extraordinarily high rates of recombination have been observed in some eusocial species. The most popular explanation is that increased recombination increases genetic variation among workers, which in turn increases colony performance, for example by increasing parasite resistance. However, support for the generality of higher recombination rates among eusocial organisms remains weak, due to low sample size and a lack of phylogenetic independence of observations. Recombination rate, although difficult to measure directly, is correlated with chromosome number. As predicted, several authors have noted that chromosome numbers are higher among the eusocial species of Hymenoptera (ants, bees and wasps). Here, we present a formal comparative analysis of karyotype data from 1567 species of Hymenoptera. Contrary to earlier studies, we find no evidence for an absolute difference between chromosome number in eusocial and solitary species of Hymenoptera. However, we find support for an increased rate of chromosome number change in eusocial taxa. We show that among eusocial taxa colony size is able to explain some of the variation in chromosome number: intermediate‐sized colonies have more chromosomes than those that are either very small or very large. However, we were unable to detect effects of a number of other colony characteristics predicted to affect recombination rate – including colony relatedness and caste number. Taken together, our results support the view that a eusocial lifestyle has led to variable selection pressure for increased recombination rates, but that identifying the factors contributing to this variable selection will require further theoretical and empirical effort.     

Restriction fragment length polymorphism and divergence in the genomic regions of high and low recombination in self-fertilizing and cross-fertilizing aegilops species.

RFLP was investigated at 52 single-copy gene loci among six species of Aegilops, including both cross-fertilizing and self-fertilizing species. Average gene diversity (H) was found to correlate with the level of outcrossing. No relationship was found between H and the phylogenetic status of a species. In all six species, the level of RFLP at a locus was a function of the position of the locus on the chromosome and the recombination rate in the neighborhood of the locus. Loci in the proximal chromosome regions, which show greatly reduced recombination rates relative to the distal regions, were significantly less variable than loci in the distal chromosome regions in all six species. Variation in recombination rates was also reflected in the haplotype divergence between closely related species; loci in the chromosome regions with low recombination rates were found to be diverged less than those in the chromosome regions with high recombination rates. This relationship was not found among the more distantly related species.     

Karyotypic conservatism in the suborder Feliformia (Order Carnivora)

Multidirectional comparative chromosome painting was used to investigate the karyotypic relationships among representative species from three Feliformia families of the order Carnivora (Viverridae, Hyaenidae and Felidae). Complete sets of painting probes derived from flow-sorted chromosomes of the domestic dog, American mink, and human were hybridized onto metaphases of the spotted hyena (Crocuta crocuta, 2n = 40) and masked palm civet (Paguma larvata, 2n = 44). Extensive chromosomal conservation is evident in these two species when compared with the cat karyotype, and only a few events of chromosome fusion, fission and inversion differentiate the karyotypes of these Feliformia species. The comparative chromosome painting data have enabled the integration of the hyena and palm civet chromosomes into the previously established comparative map among the domestic cat, domestic dog, American mink and human and improved our understanding on the karyotype phylogeny of Feliformia species.     

Comparative genomics: tracking chromosome evolution in the family ursidae using reciprocal chromosome painting

The Ursidae family includes eight species, the karyotype of which diverges somewhat, in both chromosome number and morphology, from that of other families in the order Carnivora. The combination of consensus molecular phylogeny and high-resolution trypsin G-banded karyotype analysis has suggested that ancestral chromosomal fissions and at least two fusion events are associated with the development of the different ursid species. Here, we revisit this hypothesis by hybridizing reciprocal chromosome painting probes derived from the giant panda (Ailuropoda melanoleuca), domestic cat (Felis catus), and man (Homo sapiens) to representative bear species karyotypes. Comparative analysis of the different chromosome segment homologies allowed reconstruction of the genomic composition of a putative ancestral bear karyotype based upon the recognition of 39 chromosome segments defined by painting as the smallest conserved evolutionary unit segments (pSCEUS) among these species. The different pSCEUS combinations occurring among modern bear species support and extend the postulated sequence of chromosomal rearrangements and provide a framework to propose patterns of genome reorganization among carnivores and other mammal radiations.     

Chromosomal polymorphism of ribosomal genes in the genus Oryza

The genes encoding for 18S–5.8S–28S ribosomal RNA (rDNA) are both conserved and diversified. We used rDNA as probe in the fluorescent in situ hybridization (rDNA-FISH) to localized rDNAs on chromosomes of 15 accessions representing ten Oryza species. These included cultivated and wild species of rice, and four of them are tetraploids. Our results reveal polymorphism in the number of rDNA loci, in the number of rDNA repeats, and in their chromosomal positions among Oryza species. The numbers of rDNA loci varies from one to eight among Oryza species. The rDNA locus located at the end of the short arm of chromosome 9 is conserved among the genus Oryza. The rDNA locus at the end of the short arm of chromosome 10 was lost in some of the accessions. In this study, we report two genome specific rDNA loci in the genus Oryza. One is specific to the BB genome, which was localized at the end of the short arm of chromosome 4. Another may be specific to the CC genome, which was localized in the proximal region of the short arm of chromosome 5. A particular rDNA locus was detected as stretched chromatin with bright signals at the proximal region of the short arm of chromosome 4 in O. grandiglumis by rDNA-FISH. We suggest that chromosomal inversion and the amplification and transposition of rDNA might occur during Oryza species evolution. The possible mechanisms of cyto-evolution in tetraploid Oryza species are discussed.     

In situ localization of the evolutionary conserved Cpy/Cty gene in the subfamily Chironominae (Chironomidae, Diptera): establishment of chromosomal homologies

The homologous sites on the salivary gland chromosomes of 13 species from three genera: Chironomus, Glyptotendipes, Kiefferulus have been mapped by means of fluorescent in situ hybridization using the evolutionary conserved gene Cpy/Cty (clone Cla1.1). In all species of genus Chironomus and genus Kiefferulus , the Cty/Cpy gene is located on arm F of chromosome EF. The relocation of the gene among the species of genus Chironomus can be done by simple or complex homozygous inversions which occurred during the divergent evolution of the chromosome of the species. In the genus Glyptotendipes , the Cty/Cpy gene was localized in arm E of chromosome EF. Since the banding patterns of salivary gland chromosomes between genus Chironomus and genus Glyptotendipes cannot be compared directly, in situ hybridization with clone of conservative gene was performed to be established some homologous chromosomes. The results obtained indicate that the chromosome arm F of Chironomus and chromosome arm E of Glyptotendipes may be homologous.     

国产12种乌头属和18种翠雀属植物的细胞学研究

研究了12种乌头属Aconitum L．和18种翠雀属Delphinium L．植物的染色体。在12种乌头属植物中,除粗花乌头A．crassiflorum为四倍体(2n=4x=32)外,其他种类都为二倍体(2n=2x＝16),中甸乌头 A.piepunense中有B染色体存在,牛扁亚属Aconitum subgen．Lycoctonum的二倍体植物与乌头亚属Aconitum subgen．Aconitum 植物的染色体在大小和形态上有明显区别;所有18种翠雀属植物都为二倍体(2n＝2x=16),其染色体在大小和形态上极为相似,但与乌头亚属的染色体易于区别。翠雀属植物的核型不对称性程度明显高于乌头属植物,因此从染色体证据来看,翠雀属要比乌头属进化。     

Cytologyof 12 species in Aconitum L. and of 18 species in Delphinium L. of the tribe Delphineae (Ranunculaceae) from China

Cytology of 12 species in Aconitum L. and of 18 species in Delphinium L. of the tribe Delphineae (Ranunculaceae) from China have been investigated. Only A. crassiflorum is a tetraploid with the chromosome number of 2n = 32, and all the other Aconitum species studied are diploids with 2n = 16. In A. piepunense, up to six B-chromosomes were observed. All the Delphinium species are diploids with 2n = 16; their karyotypes are very similar among the species, and are distinctly distinguishable from those of Aconitum species with respect to the chromosome size, chromosome morphology and karyotype asymmetry. From a cytological view, Delphinium seems to be more advanced than Aconitum, as the karyotypes in Delphinium are more asymmetric than those in Aconi-tum.