菜粉蝶蛹体型大小对蝶蛹金小蜂后代数量、性比及体型大小的影响

为检验“寄主体型大小-质量假说”,采取饥饿方法处理菜粉蝶(Pieris rapae)高龄幼虫,以获得体型大小(用体质量表示)差异大于同一自然地理种群内个体间差异的寄主蛹,然后供聚寄生蜂-蝶蛹金小蜂(Pteromalus puparum)寄生,观察寄生蜂在不同大小寄主蛹内的后代数量、性比以及体型大小。结果表明,蝶蛹金小蜂1次攻击产出的后代蜂数随寄主蛹体质量增加而显著增多,蛹中平均出蜂314.97头·g^-1。蝶蛹金小蜂后代的雌性比例随寄主蛹质量的增大而显著提高,后代雌蜂和雄蜂的体型大小(后足胫节长度)均随寄主蛹质量的增大而显著增大。可见,蝶蛹金小蜂母蜂能够根据寄主蛹质量来调整后代数量和性比,以使后代适应度最大化。最后,就蝶蛹金小蜂产卵策略及其影响因素进行了讨论。     

广大腿小蜂对菜粉蝶蛹体型大小的产卵选择及后代发育表现

产卵选择与后代发育适合度之间的相关性是进化生态学的主要科学问题之一。为探究广大腿小蜂(Brachymeria lasus)对不同体型大小寄主的选择和后代发育表现的关系,采用饥饿方法处理4龄菜粉蝶(Pieris rapae)幼虫以获得体型大小(用体质量表示)差异较大的寄主蛹,供寄生蜂选择寄生。结果表明,广大腿小蜂显著偏好体型较大的寄主蛹,而且在体型较大的蛹内产雌性后代的概率更大;子代蜂体型大小与寄主蛹大小存在显著的正相关性,但子代蜂发育历期与寄主蛹大小无相关性。研究说明,广大腿小蜂对菜粉蝶蛹的寄生选择与后代发育表现,符合寄主大小-质量模型的预测。     

蝇蛹金小蜂的交配行为及雄蜂交配次数对雌蜂繁殖的影响

多数昆虫能够进行多次交配,随寄生蜂雄蜂交配次数的增加,雄蜂体内精子减少,雌蜂获得的精子数量减少,产下更多的单倍体卵,发育为雄性后代;一些单寄生性的寄生蜂雌蜂一生仅能够交配1次。描述了蝇蛹金小蜂雌雄蜂的交配行为,探讨了雄蜂交配次数对雌蜂后代产量等的影响以及雌蜂的可交配次数。结果表明,交配过程包括求偶、交尾前期、交尾和交尾后期;雄蜂已交配的次数并不能够显著影响其配偶的寿命、产卵期和后代总数量,但显著影响到其配偶的雌、雄后代数量和性比。随雄蜂交配次数的增加,与之交配的雌蜂的后代雄性百分比显著增大,雌蜂在产卵期内更早地出现较多雄性后代,体内精子不足的现象更加明显。无论已交配的蝇蛹金小蜂雌蜂在产卵期中是否出现精子不足,均不能再次完成交配。     

蝶蛹金小蜂寄生对菜粉蝶体液免疫反应的影响(英文)

以蝶蛹金小蜂及其寄主菜粉蝶为研究对象 ,研究了内寄生蜂对寄主体液免疫反应的影响。当寄主蛹被寄生后 1 2h或第 4和 5d时 ,血淋巴中酚氧化酶活性明显增高。寄生蛹血淋巴中血细胞凝集素活性始终高于针刺和未寄生蛹 ;同样 ,寄生蛹血淋巴的抗菌活性也明显增强 ,而后两者处理蛹的活性则很微弱。由此可知 ,该蜂寄生能引起寄主体液免疫因子活性的不同程度的变化     

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。     

菜粉蝶蛹血细胞体外细胞免疫反应及蝶蛹金小蜂毒液的影响

为探明蝶蛹金小蜂Pteromalus puparum毒液对其寄主菜粉蝶Pieris rapae蛹颗粒血细胞和浆血细胞的包囊与吞噬能力的影响, 本研究分别采用Na₂-EDTA处理和尼龙毛法对菜粉蝶蛹颗粒血细胞与浆血细胞进行分离纯化; 再采用离体细胞培养方法, 研究了菜粉蝶蛹颗粒血细胞、 浆血细胞各自在包囊和吞噬反应中的作用, 以及蝶蛹金小蜂毒液对其所产生的影响。结果表明： 颗粒血细胞和浆血细胞均参与了包囊反应, 其中前者包囊作用明显, 后者作用微弱, 但两者同时存在时包囊作用最为明显; 血淋巴浆质对颗粒血细胞和浆血细胞包囊反应均无显著影响。毒液对颗粒血细胞和浆血细胞的包囊能力均存在显著的抑制作用, 且抑制作用具有明显的剂量效应特征。此外, 菜粉蝶蛹颗粒血细胞和浆血细胞均具吞噬能力, 其中前者吞噬能力显著强于后者; 毒液对颗粒血细胞与浆血细胞的吞噬能力亦均存在显著的抑制作用, 且该抑制作用亦具有显著的剂量效应特征。结果说明, 菜粉蝶蛹颗粒血细胞及浆血细胞均参与寄主的细胞免疫反应, 蝶蛹金小蜂毒液对其寄主颗粒血细胞和浆血细胞的包囊与吞噬能力均存在显著的抑制作用。     

蝶蛹金小蜂寄生对菜粉蝶血细胞骨架相关蛋白基因的转录调控

为揭示蝶蛹金小蜂Pteromalus puparum抑制寄主菜粉蝶Pieris rapae血细胞免疫反应的分子机制, 克隆了菜粉蝶肌动蛋白、肌动蛋白解聚因子及微管蛋白cDNA, 并研究了蝶蛹金小蜂寄生对其转录水平的影响。结果显示： 菜粉蝶肌动蛋白cDNA ORF为1 131 bp, 编码377 aa, 预测分子量为41.78 kDa, pI为5.29, 与其他昆虫肌动蛋白的相似性非常高, 在90%以上。氨基酸组成特点和系统进化分析表明, 克隆到的菜粉蝶肌动蛋白基因属细胞质型肌动蛋白。菜粉蝶肌动蛋白解聚因子cDNA全长为1 243 bp, ORF为 447 bp, 编码149 aa, 预测分子量为16.97 kDa, pI为7.11,与家蚕Bombyx mori、赤拟谷盗Tribolium castaneum、意大利蜜蜂Apis mellifera和桑粉介壳虫Maconellicoccus hirsutus肌动蛋白解聚因子的相似性分别为97%, 87%, 89%和72%。菜粉蝶微管蛋白cDNA全长为1 757 bp, ORF为1 344 bp, 编码448 aa, 预测分子量为50.38 kDa, pI为4.86, 与家蚕β型微管蛋白1, 2, 3和4的相似性分别为97%, 97%, 87%和93%。系统进化分析表明, 克隆到的菜粉蝶微管蛋白基因属β型微管蛋白。RT-PCR分析表明, 蝶蛹金小蜂寄生能抑制肌动蛋白、肌动蛋白解聚因子及微管蛋白基因在菜粉蝶蛹血细胞中的转录水平。由此推断蝶蛹金小蜂调控寄主血细胞骨架相关蛋白基因的转录是该蜂抑制寄主血细胞免疫反应的分子机制之一。     

小果油茶上油茶象的产卵策略

【目的】油茶象Curculio chinensis Chevrolat是我国特有木本油料树种——油茶Camellia spp.的专性蛀果害虫,常导致其大量落果。本文旨在揭示该虫发生危害与寄主果实大小的关系,并探讨其产卵行为策略。【方法】于油茶象产卵高峰期在小果油茶Camellia meiocarpa林随机采摘960个果实,清查油茶象刺孔数和窝卵数,并对果重、果长和果径进行了测量,用单因素方差分析比较产卵果、取食果和非受害果大小差异性,用线性回归分析果实特征对油茶象取食及产卵活动的影响。同时对油茶象雌虫进行了果实大小选择性试验,用配对样本t检验分析选择果与非选择果的大小差异性。【结果】在果重、果长、果径和果实体积方面,产卵果取食果非受害果(P0.01),刺孔数、窝卵数和寄生率与果实大小呈极显著线性正相关(P0.01),说明油茶象雌虫优先选择大果实取食和产卵。当两供试果实差异显著时,油茶象雌虫对大果实表现出明显的偏好选择性,危害12 h后,重受害果长度和直径都显著大于轻受害果(P0.01)。油茶象雌虫每次只产1粒卵,卵单产是油茶象本身的属性,与果实特征无关。【结论】油茶象优先选择大果实取食,支持最优觅食理论。油茶象优先选择大果实产卵。窝卵数越小,油茶象种内竞争越弱,幼体正常发育并成功脱果的概率越高,适合度增加。卵单产是油茶象应对寄主果实食物资源限制作用的一种"风险分散"行为适应策略。     

产卵次序对山麻雀卵色、卵大小和重量的影响

产卵次序可对鸟类卵黄中的营养成分、卵壳色素以及卵壳厚度等产生影响。一些鸟类可通过产卵次序对不同卵的资源进行分配,从而实现繁殖成效的最大化。本研究对不同产卵次序下山麻雀(Passer cinnamomeus)的卵色、卵大小和卵重量进行分析,结果表明,山麻雀的卵重和卵大小随着产卵次序并无显著变化,卵色与卵的大小和重量均无显著相关性,但卵背景的色度随产卵次序有明显下降趋势,而卵斑点密度则呈相反的变化。卵背景的色度随产卵次序下降可能是山麻雀有限的色素在卵中不均匀分配的结果,而卵斑点密度的增加则可能是对后期卵壳厚度变薄的一种补偿。     

性别、季节和体型大小对吐鲁番沙虎巢域的影响

2008年6月份至2009年5月份对吐鲁番沙虎的巢域进行调查:2008年6月份至2008年8月份为繁殖季节(RS),2008年9月份至2009年5月份(冬眠期除外)为非繁殖季节(NRS)。利用截趾标志重捕法研究吐鲁番沙虎的巢域,共标记283只吐鲁番沙虎,累计繁殖季节24只,非繁殖季节43只重捕超过3次(其中13只个体在繁殖季节和非繁殖季节均够3次以上捕捉次数,为重复个体),可以用于计算个体巢域面积数据。利用软件MapGis计算最小凸多边形法(MCP)巢域面积,并分析性别、体型大小、季节等因素对巢域的影响。结果表明:吐鲁番沙虎非繁殖季节雄性、雌性与幼体各组间的巢域面积差异均显著,繁殖季节巢域面积差异不显著;雌雄个体不同季节或全年合并比较巢域面积差异性均不显著;非繁殖季节面积与吻肛长(SVL)显著相关、全年成体组的巢域面积与吻肛长显著相关;成体巢域面积季节差异显著(U=41,P=0.046),幼体则没有季节差异(U=159,P=0.537)。因而,吐鲁番沙虎的巢域大小受性别因素影响不大,体型大小对巢域面积有显著影响,由于繁殖、食物资源等的季节变化是影响吐鲁番沙虎巢域最重要的因素。     

The reproductive strategy of the gregarious parasitoid,Pteromalus puparum (Hymenoptera: Pteromalidae)

Summary Host size of Pteromalus puparum, a gregarious pupal parasitoid, shows a wide inter- and intraspecific variation. Experiments were made to study the regulation of the number and sex ratio of progeny per host by the parasitoid. The parasitoid could discriminate inter- and intraspecific size differences of the host and regulate the number of eggs according to the host size when a single female attacked the host. The sex ratio of progeny (proportion males) was about 0.1. The number of progeny laid by the female agreed with the energetically most efficient number og eggs in order to maximize total weight of progeny per host but not with the reproductively most efficient number of eggs to maximize the total fecundity of the progeny. The parasitoid laid smaller number of eggs in a half buried host, but the number was much larger than a half of those in a fully exposed host. When more than one female attacked a single host, the number and sex ratio of progeny per host increased with the number of females attacking the host, but the number of progeny per female decreased. The change of the sex ratio agreed with the prediction of the local mate competition model.     

The reproductive strategy of the gregarious parasitoid,Pteromalus puparum (Hymenoptera: Pteromalidae)

Summary Pteromalus puparum is a gregarious parasitoid of lepidopterous pupae. To determine in which phase of a host outbreak superparasitism occurs, field investigations were carried out on seasonal prevalence of the host, Papilio xuhtus, and parasitism by P. puparum in a citrus grove in Fukuoka, Japan in 1974. Host pupation occurred from May to November and the parasitoid attacked the host throughout this period. Pupal density increased rapidly after mid-August and the percentage parasitism decreased during this period. A high level of parasitism was attained after one or more parasitoid generations in mid-September. The superparasitism was observed after mid-September when the parasitoid attained extremely high density, and resulted in an increase in the proportion of males, high mortality, and a decrease in the size of the progeny.     

The reproductive strategy of the gregarious parasitoid,Pteromalus puparum (Hymenoptera: Pteromalidae)

Summary Pteromalus puparum is a gregarious parasitoid of many butterfly pupae. Adult size, mortality, and sex ratio of P. puparum, as a parasitoid of Papilio xuthus, were unit weight of the host. Effects of female size on fecundity, wing load, and longevity were also examined.The highest total weight of progeny from the host was attained when the number of eggs per gram of the host was approximately 150. Positive correlations were observed between the size of the females and their fecundity and wing load. The maximum longevity of the female kept with honey but without hosts was attained when the initial number of parasitoids per g of the host was 150.Considering the total fecundity of all female progeny, the reproductively most efficient number of eggs to be deposited per g of the host was estimated to be approximately 300. However, as shortage of food for the adult females strongly affects their fecundity, the reproductively most efficient number of eggs to be deposited per g of the host was about 70 when the adult female progeny was not provided with food.The optimal number of eggs to be deposited when the emale oviposits in the host under field conditions is discussed.     

Genome-wide identification and analysis of genes encoding cuticular proteins in the endoparasitoid wasp Pteromalus puparum (Hymenoptera: Pteromalidae)

The multifunctional insect cuticle serves as the exoskeleton, determines body shape, restricts water loss, provides attachment sites for muscles and internal organs and is a formidable barrier to invaders. It is morphologically divided into three layers, including envelope, epicuticle, and procuticle and is composed of chitin and cuticular proteins (CPs). Annotation of CPs and their cognate genes may help understand the structure and functions of insect cuticles. In this paper, we interrogated the genome of Pteromalus puparum, an endoparasitoid wasp that parasitizes Pieris rapae and Papilio xuthus pupae, and identified 82 genes encoding CPs belonging to six CP families, including 62 in the CPR family, 8 in CPAP3, 5 in CPF/CPFL, 2 low complexity proteins, 2 in TWDL, and 3 in Apidermin. We used six RNA-seq libraries to determine CP gene expression profiles through development and compared the cuticle hydrophobicity between the P. puparum and the ectoparasitoid Nasonia vitripennis based on GRAVY values of CPR sequences. In the Nasonia-Pteromalus comparison, we found in both N. vitripennis and P. puparum, the peak of their CPR hydrophobicity displayed at their pupal stage, whereas their adult stage showed the lowest level. Except at the adult stage, the CPR hydrophobicity in N. vitripennis is always higher than P. puparum. Finally, we identified three novel Apidermin genes, a family found solely in Hymenoptera and revealed a new sequence feature of this family. This new information contributes to a broader understanding of insect CPs generally.     

蝶蛹金小蜂毒液蛋白不同提取分离方法的比较

为了建立蝶蛹金小蜂Pteromalus puparum毒液抑制寄主血细胞免疫活性组分合适的分离纯化方法,就等电点沉淀法、乙醇沉淀法、75%硫酸铵沉淀法、75%硫酸铵沉淀法+40℃加热处理法,以及75%硫酸铵沉淀法分别与3种不同滤膜的分子大小截留法的组合等7种方法对毒液蛋白分离效果及活性的影响进行了比较。结果表明：等电点沉淀法获得的组分抑制寄主菜粉蝶Pieris rapae离体血细胞延展和包囊的活性最强,乙醇沉淀法次之,75%硫酸铵沉淀法最弱。从蛋白组分的SDS-PAGE图谱来看,等电点沉淀法获得毒液组分相对最纯,仅有3条主要谱带,分子量大小在45～116.2 kDa范围内;乙醇沉淀法次之,有5条主要谱带,分子量大小在24～116.2 kDa范围内;硫酸铵沉淀法的谱带组成与毒液蛋白粗提液相似。3种分子大小截留法获得的毒液组分的活性分析表明,强活性组分分子量大小可能都大于100 kDa。综合认为,7种方法中以等电点沉淀法提取分离蝶蛹金小蜂毒液蛋白相对为最适。     

蝶蛹金小蜂卵黄蛋白单克隆抗体的制备及其应用方法的建立

为深入研究寄生蜂卵黄发生及其内分泌调控,特采用杂交瘤细胞技术,制备4株能稳定分泌抗蝶蛹金小蜂Pteromalus puparum卵黄蛋白（vitellin, Vt）的单克隆抗体（mAb）,即PpVt mAb1,PpVt mAb2,PpVt mAb3和PpVt mAb4。这4株单克隆抗体的重链和轻链的亚类均分别为IgG1和κ类型,不仅特异性识别Vt,而且识别雌蜂血淋巴中卵黄原蛋白（vitellogenin,Vg）,但与雄蜂体液无反应。通过比较4种不同的ELISA方法,确定了微量检测蝶蛹金小蜂体内Vg/Vt的最适ELISA法,即双夹心ELISA法。该方法可用于单头雌蜂体内Vg/Vt的检测,其检测灵敏度为20 ng/mL。用Western 免疫印迹的方法证实了该蜂Vg的合成始于刚羽化的成虫,并在羽化后12～36 h内含量达到高峰。     

抗生素处理对感染Wolbachia的丽蚜小蜂生殖的影响

Wolbachia是一类广泛存在于节肢动物体内, 可以对寄主的生殖力及生殖行为产生影响的共生菌。用抗生素可以有效除去寄主体内的Wolbachia。本实验通过喂食浓度分别为1, 5和10 mg盐酸四环素/mL蔗糖水, 结合PCR检测丽蚜小蜂Encarsia formosa体内Wolbachia的去除效果; 解剖观察丽蚜小蜂F0代及F1, F2和F3代怀卵量和卵巢管数量, 评价Wolbachia对丽蚜小蜂生殖的影响。结果显示： 抗生素处理去除Wolbachia后F0代蜂的卵巢管数量与未处理蜂之间无显著差异（P=0.12）, 但F1, F2和F3代蜂的卵巢管均为6条, 显著少于F0代蜂的卵巢管数量（P<0.001）。抗生素处理去除Wolbachia后的F0代蜂怀卵量与未处理蜂相比显著下降, 但显著高于经抗生素处理去除Wolbachia后的F1, F2和F3代蜂怀卵量（P<0.001）, 后代（F1, F2, F3）蜂之间怀卵量无显著差异（P=0.59）。去除Wolbachia后, 丽蚜小蜂可以产生雄性后代, 但未见交配行为, 且雌蜂可不经交配而产生雌性后代。结果说明, Wolbachia不仅直接影响丽蚜小蜂的怀卵量, 而且还可以通过影响丽蚜小蜂卵巢管的发育影响丽蚜小蜂的怀卵量; 然而, 去除Wolbachia不改变雌蜂的孤雌生殖方式。     

Venom of Pteromalus puparum (Hymenoptera: Pteromalidae) induced endocrine changes in the hemolymph of its host,Pieris rapae (Lepidoptera: Pieridae)

Pteromalus puparum is a predominant endoparasitoid wasp of Pieris rapae. Its venom is the only active factor injected into host associated with oviposition. In this report, we explored whether the venom alone from this wasp affects the endocrine system of its host or not. We monitored the changes of hemolymph juvenile hormone (JH; only JH III detected), ecdysteroid, and juvenile hormone esterase activity (JHE) over 72 h in parasitized and venom‐microinjected P. rapae pupae. Non‐parasitized and PBS‐microinjected P. rapae served as controls. Results showed that JH titers were significantly higher in parasitized and venom‐microinjected pupae than that in control pupae during 24 to 72 h. After 12 h, JH titers were significantly promoted by parasitization and venom microinjection. JHE activities of non‐parasitized and PBS‐microinjected pupae were significantly higher than that of parasitized and venom‐microinjected pupae, which was with a peak at 12 h (parasitized pupae) or 24 h (venom‐microinjected pupae) during 6 to 48 and 12 to 36 h, respectively. The hemolymph titers of ecdysteroid in non‐parasitized and PBS‐microinjected pupae increased rapidly during 12 to 36 h with a peak at 36 h, and were higher than treatments before 48 h, while presenting a significant difference at 24 to 48 h between the treatments and controls. The results demonstrate that venom alone of this parasitoid wasp can disrupt its host's endocrine system. © 2009 Wiley Periodicals, Inc.