The genetics and evolution of obligate reproductive parasitism in Trichogramma pretiosum infected with parthenogenesis-inducing Wolbachia

Parthenogenesis-inducing (PI) Wolbachia belong to a class of intracellular symbionts that distort the offspring sex ratio of their hosts toward a female bias. In many PI Wolbachia-infected species sex ratio distortion has reached its ultimate expression-fixation of infection and all-female populations. This is only possible with thelytokous PI symbionts as they provide an alternative form of reproduction and remove the requirement for males and sexual reproduction. Many populations fixed for PI Wolbachia infection have lost the ability to reproduce sexually, even when cured of the infection. We examine one such population in the species Trichogramma pretiosum. Through a series of backcrossing experiments with an uninfected Trichogramma pretiosum population we were able to show that the genetic basis for the loss of female sexual function could be explained by a dominant nuclear effect. Male sexual function had not been completely lost, though some deterioration of male sexual function was also evident when males from the infected population (created through antibiotic curing of infected females) were mated to uninfected females. We discuss the dynamics of sex ratio selection in PI Wolbachia-infected populations and the evolution of non-fertilizing mutations.     

Wolbachia对赤眼蜂的性别调控机制及生理影响

沃尔巴克氏体(Wolbachia)是广泛分布于节肢动物生殖组织内的一类共生细菌。它们通过共生诱导宿主赤眼蜂的产雌孤雌生殖,在生物防治上具有重要意义。文章概述了Wolbachia在赤眼蜂中的分布状况,对赤眼蜂的性别调控机制,在赤眼蜂种群中的传播及限制因素,以及对赤眼蜂适合度的影响。     

Natural taxonomy in light of horizontal gene transfer

We discuss the impact of horizontal gene transfer (HGT) on phylogenetic reconstruction and taxonomy. We review the power of HGT as a creative force in assembling new metabolic pathways, and we discuss the impact that HGT has on phylogenetic reconstruction. On one hand, shared derived characters are created through transferred genes that persist in the recipient lineage, either because they were adaptive in the recipient lineage or because they resulted in a functional replacement. On the other hand, taxonomic patterns in microbial phylogenies might also be created through biased gene transfer. The agreement between different molecular phylogenies has encouraged interpretation of the consensus signal as reflecting organismal history or as the tree of cell divisions; however, to date the extent to which the consensus reflects shared organismal ancestry and to which it reflects highways of gene sharing and biased gene transfer remains an open question. Preferential patterns of gene exchange act as a homogenizing force in creating and maintaining microbial groups, generating taxonomic patterns that are indistinguishable to those created by shared ancestry. To understand the evolution of higher bacterial taxonomic units, concepts usually applied in population genetics need to be applied.     

Nocturnal parasitism of moth eggs by Trichogramma wasps

Parasitoid wasps of the genus Trichogramma are used worldwide as biological control agents against lepidopteran pests. Trichogramma wasps develop inside eggs of a wide range of host species, most of them moths. They are generally considered as diurnal insects. Here, we investigated whether Trichogramma wasps can also successfully parasitise host eggs at night under controlled laboratory conditions. Eggs of the moth Ephestia kuehniella were offered under dark conditions (scotophase) to females of Trichogramma brassicae and Trichogramma evanescens either from 9:00 PM to 9:00 AM or from 11:00 AM to 5:00 PM at four different temperatures (5°C, 10°C, 15°C and 20°C). Both species are known to parasitise E. kuehniella eggs in the photophase during daytime. The results show that T. brassicae did not parasitise eggs in the scotophase at night and only very few in the artificially induced scotophase during daytime from 10°C to 20°C. In contrast, T. evanescens parasitised more eggs in the dark both at night and artificially induced scotophase during daytime. Parasitism in the scotophase already started at 5°C, with more eggs being parasitised and more offspring being produced at higher temperatures. T. evanescens displayed higher parasitism activity in the induced scotophase during daytime than in the scotophase at night. The present study suggests that Trichogramma are capable of successfully parasitising host eggs at night, even at low temperatures, but that nocturnal activity with respect to parasitism varies between wasp species.     

Dynamics of Wolbachia populations in transfected lines of Trichogramma

Fluorescence in situ hybridization was tested to specifically detect symbionts of the genus Wolbachia in Trichogramma and to allow for semiquantitative estimations of symbiont abundance. Extraction solutions used for horizontal transfers of symbionts contain a high abundance of Wolbachia, but Wolbachia have a low and decreasing abundance in microinjected lines (transfected lines). Moreover, eggs of microinjected lines were shown to be polymorphic for the infection. In naturally infected lines, Wolbachia are localized at the posterior pole of the eggs; they are scattered during the early stages of larval development and then concentrated in the ovaries at the end of the female pupal development. Scattering and concentration are probably not active but rather the result of replications or morphogenesis. Conversely, Wolbachia are not concentrated at the posterior pole of eggs in microinjected lines. Comparison of the within-family and between-family variances of the symbiont abundance in a microinjected line did not lead us to conclude that this character shows a genetic variability.     

Comparing interspecific and intraspecific allometry in the Anatidae

Summary Interspecific scaling relationships (e.g. of limb size with body mass) in vertebrates are usually assumed to be functional (e.g. biomechanical) attributes. In this paper on the Anatidae, we study the scaling of wing length and tarsus length with body mass, relationships that can be expected to have biomechanical significance. At an interspecific level, both wing length and tarsus are positively allometric, a finding consistent with results from previous comparative avian studies. These trends remained significant in regressions controlling for the effects of phylogeny, but interspecific slopes were less steep within tribes than in the whole family (a taxon-level effect). We are not aware of any biomechanical resasons that explain these patterns satisfactorily. Intraspecific (static) allometries in Green-winged Teal (Anas crecca) and Marbled Teal (Marmaronetta angustirostris) are different: wing length is negatively allometric and tarsus is isometric. These anomalies suggest that interspecific and intraspecific scaling relationships do not share common causes. Our results bring into question the significance of interspecific allometries in vertebrate morphology, which may to some extent be non-functional by-products of morphological optimisation processes within species and ecological differences between them.

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Vergleich inter- und intraspezifisher Allometrien bei Anatiden

Zusammenfassung Bei Vertebraten werden auf dem interspezifischem Niveau Größenbeziehungen (z. B. Gliedmaßenlänge mit Körpergewicht) üblicherweise funktional (z. B. bio-mechanisch) erklärt. In der vorliegende Studie untersuchen wir die Größenbeziehungen von Flügel- und Tarsuslänge mit der Körpermasse bei Anatiden. Es ist zu erwarten, daß diese Beziehungen biomechanische Bedeutung haben. Auf dem interspefischen Niveau (morphometrische Daten von 42 westpaläarktischen Arten wurden untersucht) sind sowohl Flügellänge als auch Tarsuslänge positiv allometrisch, d. h. länger mit zunehmender Masse. Dieses Ergebnis stimmt mit früheren, vergleichenden Studien an Vögeln überein. Diese Trends waren auch in Regressionsanalysen signifikant, in denen auf die Effekte der Phylogenie kontrolliert wurde. Allerdings, waren die interspezifischen Steigungen innerhalb der Triben geringer als in ganzen Familien (Effekt des taxonomischen Niveaus). Für diese Muster haben wir keine befriedigende biomechanische Erklärung. Intraspezifische (statische) Allometrien in einjährigen Krickenten (Anas crecca) und Marmelenten (Marmaronetta angustirostris) unterscheiden sich: die Flügellänge ist hier negativ allometrisch (d. h. relativ kürzer bei steigender Masse), die Tarsuslänge ist isometrisch. Diese Anomalien weisen darauf hin, dass inter-und intraspezifischen Größenbeziehungen keine gemeinsame Erklärung zugrunde liegen. Unsere Ergebnisse stellen die Bedeutung von interspezifischen Allometrien in der Morphologie von Vertebraten in Frage. Sie könnten zum Teil nichtfunktionelle Nebenprodukte von morphologischer Spezialisierung innerhalb von Arten, aber auch von ökologischen Unterschieden zwischen Arten sein.

     

Wolbachia在螟黄赤眼蜂种群内的分布及其遗传稳定性

本文通过对Wolbachia的wsp及16S rDNA基因的PCR扩增及克隆测序,明确了Wolbachia在华南、华北不同作物田间螟黄赤眼蜂Trichogramma chilonis种群内的分布情况.结果表明,在所有检测的螟黄赤眼蜂个体内都存在着Kue和Pip两组Wolbachia,双重感染率达到了100%.在不同温度下用米蛾Corcyra cephalonica Stainton卵饲养多代后,螟黄赤眼蜂体内的Wolbachia类型及感染率未发生改变,表明Wolbachia能够在螟黄赤眼蜂体内稳定遗传,不受环境温度的直接影响.本研究中螟黄赤眼蜂为两性生殖或孤雌产雄生殖,Wolbachia未能引起赤眼蜂的产雌孤雌生殖.首次报道了Wolbachia在我国螟黄赤眼蜂野生种群内的分布情况及其遗传稳定性.     

An ancient horizontal gene transfer between mosquito and the endosymbiotic bacterium Wolbachia pipientis

The extent and biological relevance of horizontal gene transfer (HGT) in eukaryotic evolution remain highly controversial. Recent studies have demonstrated frequent and large-scale HGT from endosymbiotic bacteria to their hosts, but the great majority of these transferred genes rapidly become nonfunctional in the recipient genome. Here, we investigate an ancient HGT between a host metazoan and an endosymbiotic bacterium, Wolbachia pipientis. The transferred gene has so far been found only in mosquitoes and Wolbachia. In mosquitoes, it is a member of a gene family encoding candidate receptors required for malaria sporozoite invasion of the mosquito salivary gland. The gene copy in Wolbachia has substantially diverged in sequence from the mosquito homolog, is evolving under purifying selection, and is expressed, suggesting that this gene is also functional in the bacterial genome. Several lines of evidence indicate that the gene may have been transferred from eukaryotic host to bacterial endosymbiont. Regardless of the direction of transfer, however, these results demonstrate that interdomain HGT may give rise to functional, persistent, and possibly evolutionarily significant new genes.     

Wolbachia infection in six species of gall wasps and their parasitoids

Wolbachia are endosymbiotic bacteria that are widely present in nematodes and arthropods and sometimes have a significant impact on the evolution, ecology, and biology of their hosts. The co-occurrence of Wolbachia within both Cynipid gall wasps and their parasitoids has rarely been studied. In this study, we report the occurrence of six species of gall wasps and 10 species of their parasitoids in central China. Wolbachia detection using the wsp gene showed that Wolbachia infected two species of gall wasps as well as their parasitoids, indicating that horizontal transmission of Wolbachia occurs between gall wasps and their parasitoids. Given that parasitoids will kill their hosts, Wolbachia may be horizontally transferred from gall wasps to their parasitoids. Using multilocus sequence typing (MLST) analysis, five new strains of Wolbachia were identified, all of which belonged to supergroup A. The strains of Wolbachia that infected gall wasps were not the same as those that infected their parasitoids. This result indicated that Wolbachia may evolve independently in parasitoids after they have been transferred from the host gall wasps.     

寄生蜂体内共生菌Wolbachia研究进展

Wolbachia是广泛分布在节肢动物生殖组织中的细胞质遗传细菌,在寄生蜂中可以通过诱导胞质不亲和、孤雌生殖、雄性雌性化和杀雄等多种方式调节寄主的生殖.本文在综述了寄生蜂体内共生菌Wolbachia的类群和分化、传播方式及其对寄主生物学特性的影响、温度通过对Wolbachia的作用而影响寄生蜂的表现等基础上,讨论了如何...     

Tonic immobility in terrestrial isopods: intraspecific and interspecific variability

Many arthropods, including terrestrial isopods, are capable of entering a state of tonic immobility upon a mechanical disturbance. Here we compare the responses to mechanical stimulation in three terrestrial isopods Balloniscus glaber, Balloniscus sellowii and Porcellio dilatatus. We applied three stimuli in a random order and recorded whether each individual was responsive (i.e. showed tonic immobility) or not and the duration of the response. In another trial we related the time needed to elicit tonic immobility and the duration of response of each individual. Balloniscus sellowii was the least responsive species and Porcellio dilatatus was the most, with 23% and 89% of the tested individuals, respectively, being responsive. Smaller Balloniscus sellowii were more responsive than larger individuals. Porcellio dilatatus responded more promptly than the Balloniscus spp. but it showed the shortest response. Neither sex, size nor the type of stimulus explained the variability found in the duration of tonic immobility. These results reveal a large variability in tonic immobility behavior, even between closely related species, which seems to reflect a species-specific response to predators with different foraging modes.     

Patch exploitation strategies of parasitic wasps under intraspecific competition

The optimal residence time of a forager exploiting a resourcepatch in the absence of competitors has been much studied sincethe development of the marginal value theorem. However, severalforagers are frequently observed exploiting the same patch simultaneously,and patch residence time has been surprisingly little studiedin such competitive situations. The few theoretical models developedon this topic predict that foragers should engage in a war ofattrition and stay in the patch longer than when foraging alone.We tested this prediction in Pachycrepoideus vindemmiae (Hymenoptera:Pteromalidae), a solitary parasitoid species in which femalesare known to defend the hosts they are exploiting via intraspecificfighting. By measuring the effect of direct (i.e., presenceof conspecifics) and indirect (i.e., presence of already-parasitizedhosts) competition on patch exploitation strategies, we revealedan apparent polymorphism of strategies. Indeed, in competitivesituations, some members of the population tended to retreatalmost immediately from the patch whereas other members tendedto remain, further exploit the patch, and be more involved ininteractions with conspecifics. The proportion of "retreaters"strongly depended on competition intensity and prior experienceof competition. The forager's physiological state (age) alsoaffects patch exploitation strategy and the intensity of interactionsbetween competing females. Our results highlight the necessityfor further theoretical studies that consider cases where contestsbetween foragers are costly and take into account prior experienceof competition and the forager's physiological state.     

Comparing phylogenetic signal in intraspecific and interspecific body size datasets

Phylogenetic comparative methods have become a standard statistical approach for analysing interspecific data, under the assumption that traits of species are more similar than expected by chance (i.e. phylogenetic signal is present). Here I test for phylogenetic signal in intraspecific body size datasets to evaluate whether intraspecific datasets may require phylogenetic analysis. I also compare amounts of phylogenetic signal in intraspecific and interspecific body size datasets. Some intraspecific body size datasets contain significant phylogenetic signal. Detection of significant phylogenetic signal was dependant upon the number of populations (n) and the amount of phylogenetic signal (K) for a given dataset. Amounts of phylogenetic signal do not differ between intraspecific and interspecific datasets. Further, relationships between significance of phylogenetic signal and sample size and amount of phylogenetic signal are similar for intraspecific and interspecific datasets. Thus, intraspecific body size datasets are similar to interspecific body size datasets with respect to phylogenetic signal. Whether these results are general for all characters requires further study.     

Pollen fertility and intraspecific and interspecific compatibility in mangroves of Fiji

 Pollen fertility and compatibility status were investigated in three species of mangroves: Bruguiera gymnorhiza, Rhizophora samoensis, R. stylosa and a hybrid between the two Rhizophora species. Pollen fertility was greater than 80% in the three species but less than 10% in the hybrid. Also, all three species were intraspecifically compatible, while the hybrid showed very low compatibility which may be due to its low pollen fertility. The genera Bruguiera and Rhizophora were found to be completely cross incompatible, while a low reciprocal cross compatibility was observed in interspecific crosses between Rhizophora stylosa and R. samoensis. Received: 5 June 1997 / Revision accepted: 10 October 1997     

元宝山冷杉群落种内与种间竞争的数量关系

元宝山冷杉 (AbiesyuanbaoshanensisY .J .LuetL .K .Fu)特产广西 ,是种群数量极少的濒危物种。根据调查资料 ,采用Hegyi提出的单木竞争指数模型CI=∑Nj=1 (Dj/Di)·1Lij对元宝山冷杉群落的种间、种内竞争强度进行定量分析。结果表明 :元宝山冷杉种内竞争较之与其伴生树种间的竞争剧烈 ;竞争木对对象木的竞争强度与对象木的胸高直径服从幂函数关系CI=ADB,竞争强度随对象木个体的增大而减小。当元宝山冷杉胸高直径达到 35～ 40cm后 ,竞争强度变化不明显。利用模型预测了元宝山冷杉种内和种间的竞争强度     

Wolbachia在我国不同地理种群的玉米螟赤眼蜂中的分布

Wolbachia是一类可以引起寄主生殖行为改变的共生菌,广泛存在于节肢动物内。玉米螟赤眼蜂Trichogramma ostriniae Pang et Chen是我国亚洲玉米螟Ostrinia furnacalis(Guene)卵寄生蜂的优势种。本文利用Wolbachia的16SrDNA基因特异性引物进行PCR扩增以及克隆测序,对我国14个地区的玉米螟赤眼蜂种群中Wolbachia的感染情况做了详细的调查。结果发现,被测的1412头野生玉米螟赤眼蜂全部感染有Wolbachia。系统发育分析表明,北京柳沟、山东菏泽、河南郑州、河南驻马店、湖南长沙5个种群存在超感染现象。这是Wolbachia在玉米螟赤眼蜂种群内分布情况的首次报道。     

Labile male morphology and intraspecific male polymorphism in the Philotrypesis fig wasps

We investigate the evolution of male morphology in the fig wasps belonging to the genus Philotrypesis (Chalcidoidea, Sycorectinae). We first reconstruct the phylogenetic relationships of Philotrypesis associated with African figs using nuclear and mitochondrial DNA. We then determine male morphotypes in the species included in our phylogeny and show that intraspecific polymorphism is common. Most species present two types of males and some species have up to three types. These morphotypes are believed to represent alternative mating tactics: some males show morphological adaptations to fighting, others are winged dispersers and others are small sneakers. Mapping out these variations onto our phylogeny reveals that the combination of morphs changes randomly along the branches of the tree. Both parsimony and likelihood approaches indicate that there has been at least one transition from dimorphism to trimorphism, several gains and losses of the small morph and two independent acquisitions of the winged morph. Using maximum likelihood analyses of character evolution, we estimate transition rates for each morph and show that the evolution of each type of morph are not correlated and that forward and backward transition rates are not significantly different. Our results altogether suggest that male morphology is evolutionary labile, it responds quickly to selection imposed by the mating environment. This study, also suggests that seemingly complex phenotypes, such as winged males, can evolve several times and can even be recreated after having been lost.     

Efficacy of Trichogramma wasps for controlling tomato leaf miner Tuta absoluta

Tomato is considered as one of the most essential vegetables after potato in Egypt. Tomato is infested by many insects; one of these serious insects is tomato leaf miner Tuta absoluta, which causes yield losses up to 100%. T absoluta is attacking leaves, flowers, stems and fruits. Trichogramma species is playing an important role in reducing this insect infestation. Efficiency of Trichogramma evanescens alone and in combination with insecticides were assessed against T. absoluta in tomato fields. Three release rates 500, 1000 and 1500 parasitized egg/card as well as 2 insecticides (Dimilin and Corgen) were applied. Number of normal and parasitized eggs, live and dead larvae and tunnel numbers were recorded. The results revealed that T. absoluta eggs were higher in control plots than those counted in Trichogramma plots. Among Trichogramma release rates, higher release rates, obtained higher parasitism rates of Tuta eggs (reached to 50%). Companying Trichogramma with IGR Dimilin had a little side effect on parasitism rate which it was smaller compared to plots of Trichogramma alone. Dimilin (IGR) caused reducing in Tuta larval population, which it differed significantly compared to control plots. Another IGR, Coragen resulted increasing the mortality of Tuta larvae than other treatments. In Trichogramma release rates, higher release rates, lower number of tunnels were found. In plots of companying Trichogramma with Coragen, the lowest tunnel numbers were recorded. Field release of T. evancences would be a promise biocontrol agent to suppress T. absoluta. These findings may encourage using T. evancences as a favorable strategy for integrated management of T. absoluta to produce safe tomato.     

短期高温对感染Wolbachia的松毛虫赤眼蜂发育和繁殖的影响

感染了沃尔巴克氏体Wolbachia的松毛虫赤眼蜂Trichogramma dendrolimi Matsumura营孤雌产雌生殖方式,但高温可能影响这一特性。为了模拟该赤眼蜂在田间遇到短期高温后的受影响情况,研究了柞蚕卵繁殖的Wolbachia感染了Wolbachia的松毛虫赤眼蜂孤雌产雌品系,于蛹中期和蛹后期经历6h32,35,38℃高温单次冲击处理,对当代羽化出蜂率、单卵出蜂数、单卵雌蜂率、寿命4个指标和处理子代羽化出蜂率、有效繁殖个体、单卵出蜂数、单卵雌蜂率4个指标的影响。结果表明,短期高温刺激会对孤雌产雌的松毛虫赤眼蜂产生不利影响,尤其是38℃高温不利影响明显,主要表现在羽化出蜂率和单卵出蜂数两指标明显降低;高温冲击对子代蜂各指标影响不明显。2代赤眼蜂均未有雄峰出现,表明短期高温冲击不能对Wolbachia调控其宿主生殖方式的作用产生影响。