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1.
Polyembryony involves the production of several genetically identical progeny from a single egg through clonal division. Although polyembryonic development allows highly efficient reproduction, especially in some parasitoid wasps, it is far less common than monoembryony (development of one embryo per egg). To understand what might constrain the evolutionary success of polyembryony in parasitoids, we developed Monte Carlo models that simulate the competition between polyembryonic females and their monoembryonic counterparts. We investigated which simulated life‐history traits of the females allow the monoembryonic mode of development to succeed. Published empirical studies were surveyed to explore whether these traits indeed differ between polyembryonic parasitoids and related monoembryonic species. The simulations predict an advantage to monoembryony in parasitoids whose reproduction is limited by host availability rather than by egg supply, and that parasitize small‐bodied hosts. Comparative data on the parasitoid families Encyrtidae and (to a lesser extent) Braconidae, but not the data from Platygastridae, circumstantially support these predictions. The model also predicts monoembryony to outcompete polyembryony when: 1) hosts vary considerably in quality, 2) polyembryonic development carries high physiological costs, and 3) monoembryonic females make optimal clutch size decisions upon attacking hosts. These multiple constraints may account for the rarity of polyembryony among parasitoid species. 相似文献
2.
Abstract 1. The flexibility of hymenopteran sex ratios is well documented, particularly in structured populations featuring sib mating. 2. Using game theoretic models, the present study examines species producing single‐sex broods in which sib mating is unlikely, and focuses on the role of population density in determining evolutionarily stable oviposition strategies. 3. Since only mated females can produce offspring of both sexes while unmated females produce only male offspring, mated females are under selection to produce more females overall to balance the primary sex ratio. 4. As the proportion of all females that are mated should increase with density, offspring sex ratio of mated females is strongly linked to density at low to moderate densities. The present study shows that when density becomes low enough for fewer than half of all females to have mated, then female offspring generate higher fitness. 5. In this low density situation, females may gain a fitness benefit from waiting at their emergence site or from using other costly means to find and mate with males before ovipositing. 6. The predicted correspondence between females waiting at the emergence site and fewer than half of females in the population containing sperm, can be tested empirically, as can the somewhat counter‐intuitive prediction that greater access to males should yield a more male‐biased sex ratio in the offspring of mated females. 7. The present study also indicates how measuring the variance in giving up times by females waiting for males at low density, can provide insight into mechanisms determining waiting times. 相似文献
3.
Paulo E. Oliveira Peter E. Gibbs Ana Angélica Barbosa Salvador Talavera 《Plant Systematics and Evolution》1992,179(3-4):207-219
The pollination biology and breeding systems ofEriotheca pubescens andE. gracilipes have been studied. These two species occur as trees in cerrado vegetation, the neotropical savannas of Central Brazil, with partially sympatric distributions. They have similar phenology and floral structure, although the flowers ofE. pubescens are larger. Both species have nectar flowers pollinated by largeAnthophoridae bees but the main pollinators of each species differ in size. The species have markedly different breeding systems: late-acting self-incompatibility inE. gracilipes and apomixis stimulated by pollination inE. pubescens. 相似文献
4.
M. SEGOLI A. R. HARARI J. A. ROSENHEIM A. BOUSKILA T. KEASAR 《Journal of evolutionary biology》2010,23(9):1807-1819
Polyembryony has evolved independently in four families of parasitoid wasps. We review three main hypotheses for the selective forces favouring this developmental mode in parasitoids: polyembryony (i) reduces the costs of egg limitation; (ii) reduces the genetic conflict among offspring; and (iii) allows offspring to adjust their numbers to the quality of the host. Using comparative data and verbal and mathematical arguments, we evaluate the relative importance of the different selective forces through different evolutionary stages and in the different groups of polyembryonic wasps. We conclude that reducing the cost of egg limitation is especially important when large broods are favoured. Reducing genetic conflict may be most important when broods are small, thus might have been important during, or immediately following, the initial transition from monoembryony to polyembryony. Empirical data provide little support for the brood‐size adjustment hypothesis, although it is likely to interact with other selective forces favouring polyembryony. 相似文献
5.
Maternal pre‐reproductive experience can impose phenotypic changes on offspring traits. These modifications may result from physiological constraints, although they can also increase the adaptation of offspring to their anticipated environment. Distinguishing between the two interpretations is often difficult. The effects of virgin female rearing density on their longevity and the characteristics of their male offspring are explored in the polyembryonic parasitoid wasp Copidosoma koehleri (Blanchard) (Encyrtidae: Hymenoptera). High rearing density may adversely affect maternal physiology or, alternatively, act as a cue for anticipated competition during the lives of the mothers and their offspring. Male offspring of group‐reared females reach pupation significantly sooner than male offspring of females reared alone. This accelerated development may provide an advantage when competition from superparasitising individuals is expected. The lifespan of high‐density females is longer than that of singly‐reared females, and their male offspring survive longer, suggesting that crowded rearing does not reduce the fitness of females or offspring. The shortened development time of male offspring may reflect an adaptive epigenetic response to predicted competitive conditions. 相似文献
6.
Plant defensive compounds can have sometimes severe deleterious effects on both herbivores and their natural enemies. Iridoid glycosides (IGs) are defensive compounds that are well established as deterrent to several generalist herbivores and generalist predators. Trichoplusia ni Hübner (Lepidoptera: Noctuidae) is exceptional among generalist herbivores for its ability to tolerate and thrive when feeding upon IG‐producing plant species; however, it is not known whether the compounds themselves have a harmful effect on T. ni and whether the effects in turn affect its oligophagous endoparasitoid Copidosoma floridanum Ashmead (Hymenoptera: Encyrtidae). To examine these effects, a semi‐purified extract of the IG‐containing plant Plantago lanceolata L. (Plantaginaceae), containing the IGs aucubin and catalpol, was added to artificial diets at 0, 1, 5, or 10% diet dry weight. These diets were fed to both C. floridanum‐parasitized and unparasitized T. ni. Diets higher in IGs tended to be more toxic to both parasitized and unparasitized larvae: host larvae that did survive were slightly smaller and took longer to develop on higher IG diets and total clutch size and survival of the parasitoid C. floridanum were greatly reduced as the host's dietary intake of IGs increased. Only small amounts of aucubin were detected inside the T. ni hemocoel, suggesting that the negative effect of these compounds on C. floridanum is due to nutritional quality of the host being reduced rather than direct toxic effects of the compounds. 相似文献
7.
Background and Aims
Adventitious embryony from nucellar cells is the mechanism leading to apomixis in Citrus sp. However, singular cases of polyembryony have been reported in non-apomictic genotypes as a consequence of 2x × 4x hybridizations and in vitro culture of isolated nucelli. The origin of the plants arising from the aforementioned processes remains unclear.Methods
The genetic structure (ploidy and allelic constitution with microsatellite markers) of plants obtained from polyembryonic seeds arising from 2x × 4x sexual hybridizations and those regenerated from nucellus culture in vitro was systematically analysed in different non-apomictic citrus genotypes. Histological studies were also conducted to try to identify the initiation process underlying polyembryony.Key Results
All plants obtained from the same undeveloped seed in 2x × 4x hybridizations resulted from cleavage of the original zygotic embryo. Also, the plants obtained from in vitro nucellus culture were recovered by somatic embryogenesis from cells that shared the same genotype as the zygotic embryos of the same seed.Conclusions
It appears that in non-apomictic citrus genotypes, proembryos or embryogenic cells are formed by cleavage of the zygotic embryos and that the development of these adventitious embryos, normally hampered, can take place in vivo or in vitro as a result of two different mechanisms that prevent the dominance of the initial zygotic embryo. 相似文献8.
Multiparasitism studies were conducted in the laboratory between the egg-larval polyembryonic parasitoid Copidosoma floridanum (Ashmead) (Hymenoptera: Encyrtidae) and the larval endoparasitoid Microplitis demolitor Wilkinson (Hymenoptera: Braconidae) in the mutual host Pseudoplusia includens (Walker) (Lepidoptera: Noctuidae). Most multiparasitized hosts produced either a C. floridanum brood or died without any parasitoid emergence. Most multiparasitized hosts underwent supernumerary molting; however, multiparasitized hosts that produced a C. floridanum brood exhibited growth characteristics associated with C. floridanum parasitism while multiparasitized hosts that died exhibited growth characteristics more typical of M. demolitor parasitism. Multiparasitized hosts that produced a C. floridanum brood increased in weight, and usually exhibited the behavioral and morphological characteristics associated with initiation of metamorphosis. In contrast, multiparasitized hosts that ultimately died gained little weight and exhibited no characteristics associated with metamorphosis. M. demolitor progeny died in multiparasitized hosts as eggs or first instar larvae, but no direct evidence was found to indicate that physical attack by C. floridanum precocious larvae was responsible for their elimination.
Résumé Lors de l'étude au laboratoire du multiparasitisme de Pseudoplusia includens Walker (Lépido. Noctuidae) par le parasitoïde ovolarvaire polyembryonnaire C. floridanum Ashmead (Hyméno. Encyrtidae) et l'endoparasitoïde larvaire M. demolitor Wilkinson (Hyméno. Braconidae), soit les hôtes donnent en majorité C. floridanum, soit ils meurent sans que quoi que ce soit émerge. P. includens non parasité présente 5 stades larvaires; les hôtes parasités par C. floridanum subissent 5 ou 6 stades avant le développement complet du parasitoïde, et les hôtes parasités par M. demolitor muent en stade 5 avant émergence du parasitoïde. Par contre, les hôtes multiparasités muent en stade 7; ceux qui produisent une couvée de C. floridanum ont présenté la croissance caractéristique des hôtes parasités par C. floridanum, tandis que les hôtes multiparasités qui sont morts avaient présenté la croissance caractéristique des hôtes parasités par M. demolitor. La plupart des hôtes multiparasités desquels C. floridanum a émergé ont augmenté de poids et présenté les caractères associés au début de la métamorphose. La descendance de M. demolitor est morte dans les hôtes multiparasités au stade uf ou chenille du premier stade, mais il n'y avait aucum indice d'attaque physique par des larves de C. floridanum qui auraient été responsables de leur élimination.相似文献
9.
火炬松细胞悬浮培养体细胞胚胎发生的研究 总被引:4,自引:0,他引:4
用火炬松成熟合子胚诱导产生的胚性愈伤组织建立了胚性细胞悬浮系。研究了细胞密度,继代时间和ABA浓度等对悬浮条件下胚性柄细胞团及体细胞胚形成的影响。结果表明:当细胞密度为6×10^3个/ml,继代时间为2个月,ABA浓度为5mg/L时,最有利于ESM及SE发生。在悬浮培养条件下,还观察到裂生胚及子叶原基的分化。 相似文献
10.
两对互补的显性基因控制着柑桔属和枳属的无融合生殖 总被引:2,自引:0,他引:2
无融合生殖具有重要的学术价值和应用价值。这种生殖方式普遍存在于 柑桔属及其近缘属植物中,对母本分别为单胚(即有性生殖)的宽皮柑桔品种克力迈丁和韦尔金,父本分别为多胚(即无融合生殖)的甜橙品种锦橙,新会橙,桃叶橙和哈姆林的杂种F1代群体总计8个杂交组合的229个开花结果后代,进行了胚性分离的调查,发现F1代中既有有性生殖,也有无融合生殖,有性生殖与无融合生殖的分离比例,在韦尔金后代中接近1:2,而在克力迈丁后代中接近1:1。根据该结果,结合前人的研究资料,提出在柑桔属和枳属或者还包括其他柑桔近缘属中,无融合生殖受到位于细胞核的两对互补的显性基因A1和A2的调控,且其中一对基因,设为A1表现显性纯合致死效应,两对基因的分离重组符合孟德尔的分离定律和自由组合定律,按该模式可以较为合理地解释已有的大部分常规杂交资料。 相似文献