延迟交配对山楂叶螨繁殖的影响

为了探索雌螨延迟交配对整个种群的负面效应, 采用叶碟饲养法, 在室内条件下研究了延迟交配对山楂叶螨Tetranychus viennensis Zacher繁殖及种群增长的影响。结果表明: 雌螨延迟交配主要影响寿命、产卵量, 进而影响种群增长率; 随着雌螨交配时间的延迟, 影响的程度逐渐加剧。交配延迟达到或超过7 d, 雌螨的寿命比对照延长20.17%, 产卵量比对照下降26.74%, 但对后代的孵化率、存活率无明显影响。对生命表参数的分析结果表明, 雌螨交配延迟达到或超过7 d, 会导致净生殖率显著下降、平均世代周期历期显著延长, 而内禀增长率则在交配延迟3 d时显著降低。未经交配的雌螨只能营孤雌生殖, 寿命延长了31.14%, 产卵量减少了30.08%。营孤雌生殖的雌螨可以通过与其后代回交而实现两性生殖。结果提示延迟交配会导致山楂叶螨的繁殖力降低。     

母代性比对甜菜夜蛾实验种群繁殖潜力的影响

【目的】探明母代性比对甜菜夜蛾Spodoptera exigua(Hübner)实验种群繁殖及后代发展趋势的影响,为短期预测预报提供科学指导。【方法】在人工气候培养箱中(设置条件:温度28±1℃,光周期为16L:8D,相对湿度为70%±5%),研究甜菜夜蛾实验种群不同母代性比结构(♀:♂=1:1,1:2,1:3)对主要繁殖参数的影响。【结果】甜菜夜蛾成虫产卵历期随母代性比下降而缩短;种群产卵量随母代性比降低而减少;孵化率随母代性比降低而升高;每雌产卵量无差异,但雄蛾对卵及后代的贡献量却随着雌蛾比例的加大而显著提高;后代性比和雌蛹蛹重有随母代性比下降而上升的趋势。【结论】母代性比除对甜菜夜蛾雌蛾个体生殖能力影响较小,对雌蛾产卵历期、种群产卵量和孵化率、后代性比、后代雌蛹蛹重及母代雄蛾生殖贡献率均有显著影响。当以性诱剂诱集的雄虫数量为依据进行短期预测预报时,除了考虑雄虫的数量外,还有必要了解此时种群的性比结构,才能做出更准确的判断。     

雌性截形叶螨中Wolbachia抑制Spiroplasma

【目的】探究截形叶螨中Wolbachia与Spiroplasma这两种共生菌之间的竞争关系,评估叶螨交配类型对其寿命的影响。【方法】对不同共生菌感染类型的雌螨在不同交配类型以及不同日龄的情况下其体内共生菌滴度进行定量PCR检测,对不同交配类型的雌螨寿命进行记录,利用SPSS19.00(IBM)分析交配类型、成螨日龄对共生菌滴度的影响,以及叶螨交配类型对寿命的影响。【结果】不同交配类型以及不同日龄的雌螨,其体内共生菌滴度存在显著差异;对于Wolbachia滴度,单感染Wolbachia雌螨与双感染在4日龄、10日龄有差异;对于Spiroplasma滴度,单感染Spiroplasma雌螨均显著高于双感染;双感染中Wolbachia滴度显著高于Spiroplasma;双感染雌螨与同一感染或不感染品系雄螨交配后的存活时间长于与单感染Spiroplasma雄螨交配,单感染Spiroplasma雌螨与同一感染或不感染品系雄螨交配后的存活时间长于与双感染雄螨交配。【结论】交配类型和成螨日龄影响共生菌滴度;Wolbachia的存在抑制Spiroplasma;交配类型会对雌螨寿命产生影响。     

Wolbachia和Cardinium对皮氏叶螨生殖的影响及在寄主体内的定位

Wolbachia和Cardinium均为母系遗传的胞内共生菌, 它们能够通过诱导胞质不亲和（cytoplasmic incompatibility, CI）以调控寄主的生殖。目前, 关于Wolbachia和Cardinium共同对同一寄主进行生殖操控的机制还不清楚。本研究以皮氏叶螨Tetranychus piercei McGregor广州种群为实验材料, 通过杂交实验和荧光原位杂交的方法, 研究Wolbachia和Cardinium单感染和双感染对寄主生殖的影响。结果表明： 单感染Wolbachia诱导较弱的CI, 不亲和组合的未孵化率为17.8%±1.6%。单感染Cardinium及双感染Wolbachia和Cardinium能诱导高强度的CI, 不亲和组合的未孵化率分别为70.3%±1.3%和72.9%±1.2%。同时双感染Wolbachia和Cardinium雌螨的平均产卵量为35.2±1.2, 显著高于单感染和不感染的雌螨的产卵量。Wolbachia 和Cardinium分别诱导以及共同诱导CI的水平与精子形成过程中的感染情况有关。Wolbachia和Cardinium的垂直传播模式结果显示, 在卵的不同发育阶段, Wolbachia和Cardinium主要伴随着营养物质从滋养细胞、 中肠、 输卵管进入发育中的卵。研究结果为进一步了解 Wolbachia和Cardinium的母系遗传机制提供了重要依据。     

山楂叶螨雄螨繁殖潜力

【目的】山楂叶螨Tetyanychus viennensis Zacher是我国北方落叶果树的重要害虫。本研究旨在探索山楂叶螨雄螨的繁殖潜力。【方法】采用叶碟饲养法,在室内温度25±1℃,相对湿度60%±10%,光周期16L∶8D条件下,研究了山楂叶螨雄螨的交配次数、交配时间及可繁育的雌性后代数。【结果】雄螨羽化后可立即进行交配,第1次交配的交配时间最长,随后的交配时间明显缩短;足以使雌螨充分受精的最短有效交配时间为50 s,远短于其正常的交配时间;雄螨终生交配授精雌螨数为26~37头,可繁育雌性后代688~989头,且与性比关系密切;雄螨日龄对其交配能力有明显的影响,日均交配次数在3日龄成螨内无明显变化,5日龄则显著减少,但在7日龄后仍可维持较高的交配能力;交配历史能显著地影响雄螨的交配能力,在经历20次交配后,雄螨日均交配次数显著降低,但即使经历30次交配仍可保持足够的授精能力。【结论】山楂叶螨雄螨具有较强的交配和授精能力。     

转染从灰飞虱提取的Wolbachia对豆叶螨繁殖适合度和寿命的影响

【目的】Wolbachia是广泛存在于节肢动物体内的一类母系遗传的共生菌, 能够通过多种机制调节节肢动物的生殖。近年来, 为了更进一步地探究Wolbachia与寄主之间的互作机制, 许多研究者展开了Wolbachia的人工转染研究。【方法】我们在实验室条件下将灰飞虱Laodelphax striatellus (Fallén)感染的Wolbachia提取纯化后, 利用显微注射的方法导入豆叶螨Tetranychus phaselus Ehara体内。研究了注入从灰飞虱提取的Wolbachia和豆叶螨自然感染Wolbachia对豆叶螨繁殖适合度和寿命的影响, 并测定了两种Wolbachia的密度随豆叶螨日龄增长的变化情况。【结果】结果显示, 外源Wolbachia在豆叶螨体内的拷贝数极低, 仅为自然感染豆叶螨体内Wolbachia拷贝数的0.5%左右。与自然感染的Wolbachia不同, 外源Wolbachia在豆叶螨种群中不能引起胞质不亲和, 但能够显著降低雌螨的产卵量。【结论】本研究表明, 来自灰飞虱的Wolbachia具有抑制豆叶螨种群扩张的潜在能力, 对豆叶螨生物防治具有一定的应用价值。     

Wolbachia 在花蓟马中的感染及其与寄主线粒体DNA多样性的关系

【目的】Wolbachia 是一种广泛存在于节肢动物中的胞内共生细菌,影响寄主的生物学特性。花蓟马 Frankliniella intonsa (Trybom)是重要的害虫,对农作物及园林植物造成危害。本研究旨在明确 Wolbachia 在花蓟马中的感染情况,并分析其与寄主线粒体DNA多样性的关系。【方法】采集中国境内26个花蓟马自然种群,运用多位点序列分型技术（multilocus sequence typing, MLST）对其体内 Wolbachia 感染率及株系进行分析;利用线粒体 COI 分子标记研究花蓟马的遗传分化及遗传多样性;通过比较感染和未感染 Wolbachia 个体 COI 数据,探究 Wolbachia 多样性与寄主线粒体DNA多样性之间的关系。【结果】花蓟马中 Wolbachia 的感染率为0%~60%,共检测到5种 Wolbachia 株系（wFint1,wFint2,wFint3,wFint4及wFint5）,均属于B大组且形成一个单系群。Wolbachia感染情况与这些花蓟马种群（除CC, GZ, TA和TY, N<5）的线粒体DNA多样性相关,表现为不感染 Wolbachia 的种群中线粒体DNA单倍型多样性（Hd）与核苷酸多样性（Pi）均高于感染 Wolbachia 的种群,且 Wolbachia 感染率与 Hd 呈显著负相关（ P <0.05）。AMOVA分析表明花蓟马线粒体DNA遗传分化与Wolbachia 感染情况有关。【结论】 Wolbachia 可能在侵染花蓟马种群后出现遗传分化;Wolbachia 感染与寄主线粒体DNA多样性有关。     

基于wsp基因的叶螨体内Wolbachia株系的多样性与重组分析

胞内共生菌Wolbachia能对多种叶螨产生生殖调控作用.为更好地筛选有潜在应用价值的Wolbachia株系,本研究应用PCR技术对自然种群的截形叶螨Tetranychus truncatus、二斑叶螨T.urticae、神泽叶螨T.kanzawai 和山楂叶螨Amphitetranychus viennensis体内的Wolbachia感染情况进行检测,并对Wolbachia的wsp基因进行序列分析和基因重组检测.结果表明,叶螨中的Wolbachia株系具有较高的遗传多样性,其中截形叶螨感染两种分化较大的株系.不同叶螨感染特有的Wolbachia株系说明Wolbachia与其宿主存在一定的协同进化关系.二斑叶螨和截形叶螨感染同一株系的Wolbachia,可能由于水平传播造成.同时,不同株系Wolbachia的wsp基因间普遍存在着基因重组现象.     

樟叶蜂两性生殖与孤雌生殖方式下雌虫生殖适合度及子代生活史特征的比较

【目的】樟叶蜂Mesoneura rufonota是危害樟树Cinnamonum campora的重要食叶性害虫,该虫的繁殖策略包括两性生殖和孤雌生殖两种模式。本研究旨在明确孤雌生殖在樟叶蜂生活史中的生物学意义。【方法】在室内25℃恒温条件下,测定并分析了樟叶蜂孤雌生殖和两性生殖两种生殖方式在亲代生殖适合度(雌虫寿命、产卵量和卵孵化率)和子代生活史(各虫态发育历期、死亡率、子代性比和产卵量等)特征上的差异。【结果】孤雌生殖的樟叶蜂雌虫寿命显著长于两性生殖的雌虫寿命,而雌虫产卵量和卵孵化率在两种生殖方式间均无差异。子代各虫态的发育历期和死亡率以及子代单雌产卵量在两种生殖方式间均无差异,但子代成虫性比在两种生殖方式间存在显著差异,表现为孤雌生殖大多产雄性子代,而两性生殖大多产雌性子代。【结论】樟叶蜂的孤雌生殖延长了亲代雌虫的寿命,且为产雄孤雌生殖。这些研究结果表明,樟叶蜂的孤雌生殖不但具有自身建群的能力,同时在种群繁衍中可以提供大量的雄虫以弥补两性生殖后代雄性个体的不足。     

樟叶峰两性生殖与孤雌生殖方式下雌虫生殖适合度及子代生活史特征的比较

【目的】樟叶蜂Mesoneura rufonota是危害樟树Cinnamonum campora的重要食叶性害虫,该虫的繁殖策略包括两性生殖和孤雌生殖两种模式。本研究旨在明确孤雌生殖在樟叶蜂生活史中的生物学意义。【方法】在室内25℃恒温条件下,测定并分析了樟叶蜂孤雌生殖和两性生殖两种生殖方式在亲代生殖适合度(雌虫寿命、产卵量和卵孵化率)和子代生活史(各虫态发育历期、死亡率、子代性比和产卵量等)特征上的差异。【结果】孤雌生殖的樟叶蜂雌虫寿命显著长于两性生殖的雌虫寿命,而雌虫产卵量和卵孵化率在两种生殖方式间均无差异。子代各虫态的发育历期和死亡率以及子代单雌产卵量在两种生殖方式间均无差异,但子代成虫性比在两种生殖方式间存在显著差异,表现为孤雌生殖大多产雄性子代,而两性生殖大多产雌性子代。【结论】樟叶蜂的孤雌生殖延长了亲代雌虫的寿命,且为产雄孤雌生殖。这些研究结果表明,樟叶蜂的孤雌生殖不但具有自身建群的能力,同时在种群繁衍中可以提供大量的雄虫以弥补两性生殖后代雄性个体的不足。     

High Temperatures Eliminate Wolbachia, a Cytoplasmic Incompatibility Inducing Endosymbiont, From the Two-spotted Spider Mite

Wolbachia can induce cytoplasmic incompatibility (CI) in the arrhenotokous two-spotted spider mite between uninfected females and infected males. Cytoplasmic incompatibility is expressed through a male-biased sex ratio and a low hatchability, and can be suppressed by removing Wolbachia from spider mites reared on a diet with antibiotics. Here we investigated whether heat-treatment can elimate Wolbachia from infected mites. Using a PCR assay with a Wolbachia-specific primer pair (ftsZ), and by standard crosses, we were able to show that 71 per cent of the mites had lost the Wolbachia infection after rearing the infected population at 32 ± 0.5 °C for four generations. The infection could be completely removed when mites were reared at 32 ± 0.5 °C for six generations. Curing through high temperatures could be one of the reasons why mixed infected/uninfected populations occur in the field. An additional consequence of rearing mites at 32 ± 0.5 °C was the shortened development time. The effect of environmental temperature on the abundance of Wolbachia and possible behavioural consequences for the spider mite are discussed.     

Wolbachia distribution and cytoplasmic incompatibility based on a survey of 42 spider mite species (Acari: Tetranychidae) in Japan

Wolbachia are a group of maternally inherited bacteria that infect a wide range of arthropods. Wolbachia infections are known to result in the expression of various abnormal reproductive phenotypes, the best known being cytoplasmic incompatibility. The first systematic survey of 42 spider mite species in Japan revealed that seven species (16.7%) were infected with Wolbachia. Wolbachia in the spider mites were grouped into three subgroups in supergroup B by phylogenetic analyses of the wsp gene. Most spider mites did not show cytoplasmic incompatibility when infected males were crossed with uninfected females. However, all infected populations of Panonychus mori and Oligonychus gotohi (five and four populations, respectively) possessed modification-positive strains of Wolbachia, and the cytoplasmic incompatibility decreased egg hatchability and female ratio of the spider mites. Thus, some Wolbachia strains cause sex ratio distortion in their hosts.     

去除Wolbachia 对丽蝇蛹集金小蜂繁殖适合度和成蜂寿命的影响

【目的】明确内共生菌 Wolbachia 对丽蝇蛹集金小蜂 Nasonia vitripennis 繁殖适合度和成蜂寿命的影响。【方法】通过给自然感染 Wolbachia 的丽蝇蛹集金小蜂成蜂喂食不同浓度的利福平来消除其体内的 Wolbachia,然后进行10个世代的连续饲养,探究不同浓度利福平对丽蝇蛹集金小蜂体内 Wolbachia 的去除效果和去除 Wolbachia 后对丽蝇蛹集金小蜂繁殖力、性比（雌蜂占子代数量的比值）和成蜂寿命的影响。【结果】低浓度利福平（0.1~0.5 mg/mL）对丽蝇蛹集金小蜂的毒害作用较小,而高浓度利福平（0.7~10.0 mg/mL）对丽蝇蛹集金小蜂的毒害作用较大,但二者均能去除丽蝇蛹集金小蜂体内的 Wolbachia;去除 Wolbachia 后丽蝇蛹集金小蜂的出蜂量显著下降（P <0.01）,子代中性比显著下降（P <0.01）,但寿命无明显差异。【结论】不同浓度利福平均能去除丽蝇蛹集金小蜂体内Wolbachia,但效果不一致;Wolbachia 对丽蝇蛹集金小蜂的出蜂量和子代性比均有显著影响,对成蜂寿命无显著影响。     

Wolbachia affects oviposition and mating behaviour of its spider mite host

Wolbachia bacteria are transmitted from mother to offspring via the cytoplasm of the egg. When mated to males infected with Wolbachia bacteria, uninfected females produce unviable offspring, a phenomenon called cytoplasmic incompatibility (CI). Current theory predicts that ‘sterilization’ of uninfected females by infected males confers a fitness advantage to Wolbachia in infected females. When the infection is above a threshold frequency in a panmictic population, CI reduces the fitness of uninfected females below that of infected females and, consequently, the proportion of infected hosts increases. CI is a mechanism that benefits the bacteria but, apparently, not the host. The host could benefit from avoiding incompatible mates. Parasite load and disease resistance are known to be involved in mate choice. Can Wolbachia also be implicated in reproductive behaviour? We used the two‐spotted spider mite – Wolbachia symbiosis to address this question. Our results suggest that uninfected females preferably mate to uninfected males while infected females aggregate their offspring, thereby promoting sib mating. Our data agrees with other results that hosts of Wolbachia do not necessarily behave as innocent bystanders – host mechanisms that avoid CI can evolve.     

Vertical transmission of Wolbachia in Tetranychus kanzawai Kishida and Panonychus mori Yokoyama (Acari: Tetranychidae)

The vertical transmission of Wolbachia in two species of spider mite was investigated and compared. One species, Tetranychus kanzawai Kishida, was infected with a modification negative strain of Wolbachia while the other species, Panonychus mori Yokoyama, was infected with a modification positive strain. The infection showed perfect maternal transmission in the laboratory population of T. kanzawai in which Wolbachia-infected females produced infected offspring regardless of whether they mated with infected or uninfected males, and uninfected females produced Wolbachia-free progenies without regard to the infection status of their mating partners. In artificial P. mori populations initiated with 50% infected and 50% uninfected female adults, the infection frequencies among progenies increased with each generation, reaching 100% at the sixth generation in the Sendai population and after the sixth generation in the Toyama population. In another experiment, in which an artificial T. kanzawai population was composed of 50% infected and 50% uninfected female adults, the infection frequency in progeny populations increased very slowly, reaching 62.5% at the 15th generation. The difference in infection frequency in the two spider mites may be due to the different strains of Wolbachia.     

Occasional males in parthenogenetic populations of Asobara japonica (Hymenoptera: Braconidae): low Wolbachia titer or incomplete coadaptation?

Wolbachia are endosymbiotic bacteria known to manipulate the reproduction of their hosts. Some populations of the parasitoid wasp Asobara japonica are infected with Wolbachia and reproduce parthenogenetically, while other populations are not infected and reproduce sexually. Wolbachia-infected A. japonica females regularly produce small numbers of male offspring. Because all females in the field are infected and infected females are not capable of sexual reproduction, male production seems to be maladaptive. We investigated why these females nevertheless produce males. We tested three hypotheses: high rearing temperatures could result in higher offspring sex ratios (more males), low Wolbachia titer of the mother could lead to higher offspring sex ratios and/or the Wolbachia infection is of relatively recent origin and not enough time has passed to allow complete coadaptation between Wolbachia and host. In all, 33% of the Wolbachia-infected females produced males and 56% of these males were also infected with Wolbachia. Neither offspring sex ratio nor male infection frequency was significantly affected by rearing temperature or Wolbachia concentration of the mother. The mitochondrial DNA sequence of one of the uninfected populations was identical to that of two of the infected populations. Therefore, the initial Wolbachia infection of A. japonica must have occurred recently. Mitochondrial sequence variation among the infected populations suggests that the spread of Wolbachia through the host populations involved horizontal transmission. We conclude that the occasional male production by Wolbachia-infected females is most likely a maladaptive side effect of incomplete coevolution between symbiont and host in this relatively young infection.     

Cardinium symbionts cause cytoplasmic incompatibility in spider mites

Intracellular symbiotic bacteria belonging to the Cytophaga-Flavobacterium-Bacteroides lineage have recently been described and are widely distributed in arthropod species. The newly discovered bacteria, named Cardinium sp, cause the expression of various reproductive alterations in their arthropod hosts, including cytoplasmic incompatibility (CI), induction of parthenogenesis and feminization of genetic males. We detected 16S ribosomal DNA sequences similar to those of Cardinium from seven populations of five spider mite species, suggesting a broad distribution of infection of Cardinium in spider mites. To clarify the effect of Cardinium on the reproductive traits of the infected spider mites, infected mites were crossed with uninfected mites for each population. In one of the populations, Eotetranychus suginamensis, CI was induced when infected males were crossed with uninfected females. The other six populations of four species showed no reproductive abnormalities in the F(1) generation, but the possibility of CI effects in the F(2) generation remains to be tested. One species of spider mite, Tetranychus pueraricola, harbored both Cardinium and Wolbachia, but these symbionts seemed to have no effect on the reproduction of the host, even when the host was infected independently with each symbiont.     

我国三地区黑腹果蝇中Wolbachia的系统发育关系及其对宿主生殖的影响

【目的】Wolbachia 是广泛存在于节肢动物和丝状线虫体内的一类共生菌, 能够以多种方式对宿主产生影响。精卵细胞质不亲和（CI）是其引起的最普遍的表型, 即感染Wolbachia的雄性宿主与未感染或感染不同品系的雌性宿主交配后, 不能产生后代或后代极少, 而感染同品系Wolbachia的雌雄宿主交配后则能正常产生后代。我们前期研究发现, 湖北武汉、 云南六库和天津3个地区黑腹果蝇Drosophila melanogaster被Wolbachia感染。本研究旨在明确这3个地区黑腹果蝇中Wolbachia的系统发育关系及其对宿主生殖的影响。【方法】利用Clustal X软件对Wolbachia的wsp基因序列进行比对, 利用MEGA软件构建系统发育树。采用多位点序列分型（MLST）的方法对Wolbachia进行分型。通过区内交配和区之间杂交的方式研究不同地区黑腹果蝇体内Wolbachia 的关系及其对果蝇生殖的影响。【结果】湖北武汉、 云南六库和天津3个地区黑腹果蝇中感染的Wolbachia都是属于A大组的Mel亚群。这3个地区果蝇感染的Wolbachia的序列类型（ST）不同, Wolbachia之间存在一定的差异。湖北武汉和天津果蝇中的Wolbachia能引起强烈的CI表型, 而云南六库果蝇中的Wolbachia引起的CI强度相对较弱。武汉果蝇中Wolbachia不能完全挽救天津果蝇中Wolbachia引起的CI表型, 而天津果蝇中Wolbachia也不能完全挽救武汉果蝇中Wolbachia引起的CI表型。【结论】武汉和天津地区黑腹果蝇中的Wolbachia可能距离较远。Wolbachia的长期共生可能对黑腹果蝇的进化产生了一定的影响, 湖北武汉与云南六库的黑腹果蝇中感染的Wolbachia属于不同的序列类型, 这2个地区的黑腹果蝇已发生了一定的分歧, 产生了一定的生殖隔离。     

What maintains noncytoplasmic incompatibility inducing Wolbachia in their hosts: a case study from a natural Drosophila yakuba population

Cytoplasmic incompatibility (CI) allows Wolbachia to invade hosts populations by specifically inducing sterility in crosses between infected males and uninfected females. In some species, non-CI inducing Wolbachia, that are thought to derive from CI-inducing ancestors, are common. In theory, the maintenance of such infections is not possible unless the bacterium is perfectly transmitted to offspring--and/or provides a fitness benefit to infected females. The present study aims to test this view by investigating a population of Drosophila yakuba from Gabon, West Africa. We did not find any evidence for CI using wild caught females. Infected females from the field transmitted the infection to 100% of their offspring. A positive effect on female fecundity was observed one generation after collecting, but this was not retrieved five generations later, using additional lines. Similarly, the presence of Wolbachia was found to affect mating behaviour, but the results of two experiments realized five generations apart were not consistent. Finally, Wolbachia was not found to affect sex ratio. Overall, our results would suggest that Wolbachia behaves like a neutral or nearly neutral trait in this species, and is maintained in the host by perfect maternal transmission.