成虫体型大小驱动六斑月瓢虫性间相互选择(英文)

【目的】配偶选择是性选择的中心过程,当繁殖成本发生波动和配偶质量存在差异时,传统的性别作用也随之不同。为了验证在某些条件下雄性也可以像雌性一样进行选择,我们研究了雄性和雌性六斑月瓢虫Menochilus sexmaculatus(Fabricius)的交配成功率与作为适合度指标的成虫体型大小之间的关系。【方法】从初始种群中随机选择体型小和体型大的两性成虫,进行雄性和雌性配偶选择试验。并对成功交配的各个配对组的后代也进行配偶选择试验,测试其交配成功率。【结果】配偶选择试验结果表明,在雄性和雌性交配试验中交配的成功取决于体型大小。雄性根据其品质即体型大小这一繁殖力指标对雌性进行区分。同样,在雌性交配试验中体型大的雄虫比体型小的雄虫交配成功率高。无论亲本体型如何,体型大的雌虫都比体型小的雌虫产卵量高;不过,体型大小不影响卵的存活力。体型大的亲本的后代比体型小的亲本的后代发育更快,寿命更长,但是将其与来自初始种群的后代进行配偶选择时,它们在性合意(sexual desirability)或竞争力方面没有表现任何优势。【结论】六斑月瓢虫中存在以体型大小为目的性状的相互配偶选择。     

一种斑翅果蝇寄生蜂的交配行为观察及雄虫交配次数对繁殖的影响

【目的】明确一种斑翅果蝇寄生蜂Trichopria drosophilae的交配行为以及雌雄蜂的交配次数对后代的影响。【方法】在室内对斑翅果蝇寄生蜂的交配行为进行观察,记录该蜂在交配行为中所出现的求偶行为、交尾前期行为、交尾行为和交尾完毕的动作及持续时间。测定寄生蜂各交配次数下的雌蜂寿命、后代出蜂总量和后代性比。【结果】寄生蜂的交配过程包括以下几个阶段:求偶,雄蜂逐渐靠近雌虫、追逐雌蜂并震动翅膀,直至爬上雌虫背部整个过程持续(50.47±85.01)s。交尾前期,雄虫头部从雌蜂的两触角中间伸出,并将触角从雌虫触角两侧向中间有规律的触碰雌虫触角,直至雌蜂打开生殖孔,整个过程持续(43.73±13.97)s。交尾,雄蜂将雄性交配器插入雌性生殖孔整个过程持续(36.28±11.03)s。交尾后期,雌虫左右甩动腹部2~3次,主动与雄虫分离整个过程持续(8.95±3.40)s。观察结果显示,雌虫一生只能交配一次,雄蜂一生交配次数在(16.54±1.37)次,最多达到19次(N=10),雄虫的交配次数对与之交配的雌蜂的寿命和后代总量无显著影响。雄蜂的交配次数对雌性后代的性比有显著影响。【结论】该寄生蜂的交配过程主要分为雄虫求偶、交尾前期、交尾、交尾后期等阶段。求偶和交尾前期阶段主要行为是雄虫追逐雌蜂、爬上雌虫背部并用触角摩擦雌虫触角。交尾阶段主要行为是雄蜂交配器插入雌性生殖孔。交尾后期主要行为是雌蜂将雄蜂甩开,是雌虫唯一主动发起的行为。随着雄蜂交配次数增加,雌蜂后代雌/雄性比降低。     

瓜氨酸对锯叶裂臀瓢虫成虫取食的干扰作用

【目的】为明确瓜氨酸对锯叶裂臀瓢虫Henosepilachna pusillanima(Mulsant)成虫取食的影响。【方法】本研究设置取食非选择性和取食选择性试验,用南瓜Cucurbita moschata Duchesne制作叶盘,将叶盘喷施20 mmol·L^(-1)和60 mmol·L(-1)和60 mmol·L^(-1)的瓜氨酸后,测定锯叶裂臀瓢虫雄虫和雌虫在24 h内的取食面积,并计算取食选择的百分率,以喷施去离子水的叶盘为对照。【结果】非选择性试验结果表明,不同处理的锯叶裂臀瓢虫雌虫的取食量均显著大于雄虫（P<0.05）。喷施20 mmol·L(-1)的瓜氨酸后,测定锯叶裂臀瓢虫雄虫和雌虫在24 h内的取食面积,并计算取食选择的百分率,以喷施去离子水的叶盘为对照。【结果】非选择性试验结果表明,不同处理的锯叶裂臀瓢虫雌虫的取食量均显著大于雄虫（P<0.05）。喷施20 mmol·L^(-1)和60 mmol·L(-1)和60 mmol·L^(-1)的瓜氨酸后,对雄虫和雌虫的取食具有显著的抑制作用（P<0.05）。喷施20 mmol·L(-1)的瓜氨酸后,对雄虫和雌虫的取食具有显著的抑制作用（P<0.05）。喷施20 mmol·L^(-1)和60 mmol·L(-1)和60 mmol·L^(-1)的瓜氨酸后雄虫的取食面积比对照（5.32 cm(-1)的瓜氨酸后雄虫的取食面积比对照（5.32 cm²）分别减少36.88%和49.33%,雌虫的取食面积则比对照（7.60 cm2）分别减少36.88%和49.33%,雌虫的取食面积则比对照（7.60 cm²）分别减少42.08%和53.36%。但雄虫和雌虫的取食量在两个瓜氨酸处理之间都没有显著差异。在选择性试验中,雄虫和雌虫明显偏好于取食对照叶盘。【结论】瓜氨酸对锯叶裂臀瓢虫成虫的取食具有抑制作用,这为该虫划圈行为机制的研究提供了新的思路和证据。     

多次交配对异色瓢虫雌虫寿命及适合度的影响

异色瓢虫Harmonia axyridis(Coleoptera:Coccinellidae)为多次交配型昆虫,通过设计不同的交配次数,观察并记录不同交配组的雌虫产卵量、卯孵化率及成虫寿命等参数,探究多次交配对异色瓢虫雌虫适合度的影响.结果 表明多次交配对雌性异色瓢虫成虫的寿命有显著影响(P<0.05),交配次数越多雌性瓢虫的寿命越短;单次交配组在交配后第一周的产卵量明显低于多次交配组,为55.00±17.90枚,而4次、7次、14次交配组产卵量分别为102.29±11.97枚、93.60±13.09枚和93.36±14.95枚;多次交配可以提高异色瓢虫卵的孵化率,多次交配组卵的孵化率明显高于单次交配组,其中7次交配组最高(88.71%±0.29%),多次交配对异色瓢虫雌虫有直接利益,多次交配可以提高雌性异色瓢虫的适合度.     

斜纹夜蛾的性选择行为

【目的】为了解斜纹夜蛾Spodoptera litura Fabricius体重、日龄、交配经历及形态特征对其性选择行为的影响。【方法】本实验通过标记成虫后,采用观察记录的方法对其进行探究。【结果】斜纹夜蛾雌虫的体重对雄虫的性选择影响比较明显,体重较大雄虫优先选择体重较小的雌虫(71.43%),而体重较小雄虫喜欢选择体重较大的雌虫(72.00%)。体重较大和体重较小的雄虫都能获得体重较大雌虫的交配选择,但是体重较大者被选择的机会更大(70.00%),体重较小的雄虫不能获得体重较小雌虫的选择。雄虫仅选择1日龄的雌虫,而雌虫偏向选择3日龄和5日龄雄虫。交配经历影响斜纹夜蛾的性选择,未交配的雄虫优先选择未交配的雌虫(86.67%),但未交配的雌虫则优先选择已交配的雄虫(66.67%)。雄虫的形态特征(体长、翅展、腹长、复眼间距和触角长)对雌虫性选择有较明显的影响,但雌虫的形态特征除翅展的大小外,其体长、腹长、复眼间距和触角长等形态特征在雄虫选择进行交配中的作用不大。【结论】体重、日龄、交配经历及形态特征都能不同程度影响斜纹夜蛾的性选择行为。     

斜纹夜蛾的性选择行为

【目的】为了解斜纹夜蛾Spodoptera litura Fabricius体重、日龄、交配经历及形态特征对其性选择行为的影响。【方法】本实验通过标记成虫后,采用观察记录的方法对其进行探究。【结果】斜纹夜蛾雌虫的体重对雄虫的性选择影响比较明显,体重较大雄虫优先选择体重较小的雌虫(71.43%),而体重较小雄虫喜欢选择体重较大的雌虫(72.00%)。体重较大和体重较小的雄虫都能获得体重较大雌虫的交配选择,但是体重较大者被选择的机会更大(70.00%),体重较小的雄虫不能获得体重较小雌虫的选择。雄虫仅选择1日龄的雌虫,而雌虫偏向选择3日龄和5日龄雄虫。交配经历影响斜纹夜蛾的性选择,未交配的雄虫优先选择未交配的雌虫(86.67%),但未交配的雌虫则优先选择已交配的雄虫(66.67%)。雄虫的形态特征(体长、翅展、腹长、复眼间距和触角长)对雌虫性选择有较明显的影响,但雌虫的形态特征除翅展的大小外,其体长、腹长、复眼间距和触角长等形态特征在雄虫选择进行交配中的作用不大。【结论】体重、日龄、交配经历及形态特征都能不同程度影响斜纹夜蛾的性选择行为。     

大蜡螟的性选择行为

【目的】针对大蜡螟Galleria mellonella L.的性选择行为进行系统观察分析,为大蜡螟性信息素全组分的结构鉴定及利用信息素行为调控技术防控该虫提供依据。【方法】分别对不同体重、不同日龄和不同交配经历的大蜡螟成虫进行标记,在红光灯下观察并记录大蜡螟雌雄虫的性选择行为。【结果】在（26±0.5）℃、相对湿度60%、全黑暗条件下,无论雌虫还是雄虫,均倾向于选择与之体重相接近的异性个体进行交配。雌雄成虫均偏向于选择3日龄的异性个体进行交配;雌虫对不同日龄雄虫的选择率大小顺序为3日龄> 5日龄> 1日龄,而雄虫对不同日龄雌虫的选择率大小顺序为3日龄>1日龄> 5日龄。交配经历影响大蜡螟的性选择行为,雌虫优先选择已交配的雄虫进行交配,选择率为74.6%;雄虫也优先选择已交配的雌虫进行交配,选择率为79.4%。【结论】雌雄虫体重、日龄和交配经历能不同程度的影响大蜡螟的性选择行为,这为进一步研究雌雄交配信号奠定基础。     

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。     

多次交配对小菜蛾精包形成与生殖力的影响

【目的】小菜蛾Plutella xylostella是主要为害十字花科作物的一种世界性害虫,强大的生殖能力是其成为田间最难防治的害虫的主要原因之一。交配是营两性生殖昆虫繁衍后代必要的一个生理过程,明确小菜蛾雌雄成虫的交配行为及交配后的生理响应,对于小菜蛾种群监测和综合防治具有重要意义。【方法】解剖观察小菜蛾成虫生殖腺及精包形成;利用行为学与生物学实验,测定和分析小菜蛾成虫交配与再交配能力、精包形成与消化,以及交配次数对精包形成以及雌虫生殖力的影响。【结果】小菜蛾雄成虫在交配过程中精液以精包的形式传递给雌成虫,在交配囊中精包呈白色、不透明、气球状结构,交配结束后精包可被充分消化和吸收。成虫交配能力观测结果显示,小菜蛾雌雄成虫均具有多次交配行为。首次交配后,雄成虫表现出短暂的再交配延迟,20 min内其交配成功率为54.6%,显著低于首次交配。虽然交配次数不会影响雄成虫的交配时长,但雄成虫交配史对其自身的精包大小以及雌成虫的生殖力均具有显著的抑制作用。雌成虫表现出明显的再交配抑制性,交配过的雌成虫在12 h内的交配率显著低于未交配雌成虫的,这可能取决于首次交配后精包的消化和吸收速率。雌成虫多次交配后,其产卵量和卵孵化率与单次交配的相比没有显著差异。【结论】多次交配会使小菜蛾雄成虫再交配延迟,雌成虫再交配受到抑制;多次交配产生的雄成虫精包显著减小,雌成虫产卵量与卵孵化率并没有从多次交配中获得收益。本研究为解析小菜蛾雌雄成虫生殖调控机制奠定理论基础。     

昆虫多次交配的策略和利益

简要回顾昆虫交配系统的研究历史,并简述Bateman的性选择原理,讨论雌雄昆虫在交配过程中的角色和性选择压力的相对关系。一般而言,由于雌雄两性在交配过程中的角色和对后代投入的不同,往往是雄虫试图与尽可能多的雌虫交配,即雄虫使自己被尽可能多的雌虫接受,雌虫选择最好的雄虫进行交配,即雌虫选择交配对象。雄虫因而发展出各种类型的交配策略,以获取与更多雌虫的交配机会;而雌虫也通过交配选择权,选择对自己更有利的雄虫进行交配,雌虫在交配过程中除了可以获得基因利益,还可以获取物质利益。文章分别就昆虫的交配策略和利益展开叙述和讨论。     

Males from populations with higher competitive mating success produce sons with lower fitness

Female mate choice can result in direct benefits to the female or indirect benefits through her offspring. Females can increase their fitness by mating with males whose genes encode increased survivorship and reproductive output. Alternatively, male investment in enhanced mating success may come at the cost of reduced investment in offspring fitness. Here, we measure male mating success in a mating arena that allows for male–male, male–female and female–female interactions in Drosophila melanogaster. We then use isofemale line population measurements to correlate male mating success with sperm competitive ability, the number of offspring produced and the indirect benefits of the number of offspring produced by daughters and sons. We find that males from populations that gain more copulations do not increase female fitness through increased offspring production, nor do these males fare better in sperm competition. Instead, we find that these populations have a reduced reproductive output of sons, indicating a potential reproductive trade‐off between male mating success and offspring quality.     

Effects of mating patterns on reproductive performance and offspring fitness in Cryptolaemus montrouzieri

We examined the female mating choice of Cryptolaemus montrouzieri Mulsant (Coleoptera: Coccinellidae) when exposed to a male with which she had mated before vs. a novel male which she never encountered. After first mating, most females chose to remate with the same male and showed a shorter mating latency period to copulation with the familiar male as compared to a new male. Then, we allowed a female to mate once, 5× with the same, or 5× with different males to evaluate how different mating patterns influence the females’ reproductive performance and offspring fitness. Mating 5× with the same male or different males improved female egg production, but had no effect on hatching rate or offspring fitness. Our findings suggest that female C. montrouzieri are able to distinguish between familiar and unfamiliar males and prefer to mate with the former. Further, multiple mating appears to offer material benefits to female C. montrouzieri specifically by increasing fecundity.     

Polyandry produces sexy sons at the cost of daughters in red flour beetles

Female mating with multiple males within a single fertile period is a common phenomenon in the animal kingdom. Female insects are particularly promiscuous. It is not clear why females mate with multiple partners despite several potential costs, such as expenditure of time and energy, reduced lifespan, risk of predation and contracting sexually transmitted diseases. Female red flour beetles (Tribolium castaneum) obtain sufficient sperm from a single insemination to retain fertility for several months. Nonetheless they copulate repeatedly within minutes with different males despite no direct fitness benefits from this behaviour. One hypothesis is that females mate with multiple partners to provide indirect benefits via enhanced offspring fitness. To test this hypothesis, we compared the relative fitness of F(1) offspring from females mated with single males and multiple males (2, 4, 8, or 16 partners), under the condition of relatively high intraspecific competition. We found that a female mating with 16 males enhanced the relative fitness of F(1) males (in two out of three trials) but reduced F(1) females' fitness (in two independent trials) in comparison with singly mated females. We also determined whether several important fitness correlates were affected by polyandry. We found that F(1) males from mothers with 16 partners inseminated more females than F(1) males from mothers with a single partner. The viability of the eggs sired or produced by F(1) males and females from highly polyandrous mothers was also increased under conditions of low intra-specific competition. Thus, the effects of polyandry on F(1) offspring fitness depend on environmental conditions. Our results demonstrated a fitness trade-off between male and female offspring from polyandrous mothers in a competitive environment. The mechanisms and biological significance of this unique phenomenon are discussed.     

Fitness benefits of polyandry for experienced females

Females often mate with several different males, which may promote sperm competition and increase offspring viability. However, the potential benefits of polyandry remain controversial, particularly in birds where recent reviews have suggested that females gain few genetic benefits from extra‐pair mating. In tree swallows (Tachycineta bicolor), we found that females with prior breeding experience had more sires per brood when paired to genetically similar social mates, and, among experienced females, broods with more sires had higher hatching success. Individual females breeding in two consecutive years also produced broods with more sires when they were more genetically similar to their mate. Thus, experienced females were able to avoid the costs of mating with a genetically similar social mate and realize fitness benefits from mating with a relatively large number of males. This is one of the first studies to show that female breeding experience influences polyandry and female fitness in a natural population of vertebrates. Our results suggest that the benefits of polyandry may only be clear when considering both the number of mates females acquire and their ability to modify the outcome of sexual conflict.     

Sexual conflict over mating in a spider: increased fecundity does not compensate for the costs of polyandry

Female multiple mating (polyandry) is a widespread but costly behavior that remains poorly understood. Polyandry may arise when whatever benefits females accrue from multiple mating outweigh the costs, or males manipulate females against the females' best interests. In a polyandrous spider Stegodyphus lineatus females may mate with up to five males, but behave aggressively toward additional males after the first mating. Female aggressiveness may act to select for better quality males. Alternatively, females may try to avoid superfluous matings. To test these alternatives, we allocated females into single-mating (SM) and double-mating treatments. Double-mated females either accepted (DM) or rejected (RE) the second male. DM females laid more eggs, but did not produce more offspring than SM and RE females. Offspring of DM females were smaller at dispersal than offspring of SM and RE females. Also, nest failure was significantly more common in DM females. Paternal variables did not influence female reproductive success, whereas maternal body condition explained much of the variation. We show that polyandry is costly for females despite the production of larger clutches and suggest that multiple mating results from male manipulation of female remating behavior.     

POLYANDRY INCREASES OFFSPRING FECUNDITY IN THE BULB MITE

Abstract The common occurrence of polyandry continues to puzzle evolutionary biologists, as female reproductive success is thought to be limited mostly by her fecundity. Here we test whether females of the bulb mite, a species in which the females are highly promiscuous, benefit from polyandry in terms of increased fitness of their progeny. Females were given opportunity to mate with either one or six males, but the experiment was designed to allow the same number of matings per female in both groups, that is, irrespective of the number of males. We found that daughters of females mated to six males had significantly higher fecundity than daughters of females mated to one male, whereas other fitness components of progeny (male virility and longevity of both sexes) were not affected. These findings appear to support hypotheses proposing that multi-male mating enables females to exercise postcopulatory mate-choice (direct or indirect, via sperm competition) and thus accrue genetic benefits.     

INTERSEXUAL SELECTION IN THE MEDITERRANEAN FRUIT FLY: DOES FEMALE CHOICE ENHANCE FITNESS?

Adaptive hypotheses of female choice predict that females use male courtship displays as an indicator of male quality. A test of whether female choice is adaptive measuring direct and indirect effects of mate choice on females was made using a laboratory population of a lek-mating species, the Mediterranean fruit fly. The nonrandom mating observed in this species is thought to be strongly influenced by female choice. Whether female choice acts to increase fecundity or offspring quality was assessed using two different statistical tests. Multiple regression showed that females generally do not receive direct benefits as a result of mating with males which are successful in copulating with many females. However, in one trial the relationship between male quality and female benefit was nonlinear. Females which mate with males that obtain few matings (<2), and females which mate with males that obtain many matings (>6) enjoy increased fecundity. Mate choice does not, however, appear to enhance offspring quality as father/son correlation and sibling analysis showed no heritable component to male copulatory success.     

Relatedness Does not Affect Competitive Behavior of Rival Males or Offspring Growth in Multiply Sired Litters of Bank Voles (Myodes glareolus)

Kin selection operates through the fitness of an organism's relatives. In the polyandry context, kin selection may be observable on the one hand in competition between rival males and, on the other hand, in competition between litter mates. Sperm competition theory predicts that males should invest less into mating when competing for fertilizations against a close relative as compared to an unrelated male. We tested this hypothesis with bank voles (Myodes glareolus) by mating each focal male to two females: one of which had previously mated with a full sibling of the focal male and the other one with a male unrelated to the focal male. However, we found no effect of rival male relatedness on mating behavior or proportion of offspring sired by the 2nd male to mate. Possibly, the probability of successive mating of related males with the same female is too low in natural bank vole populations for selection to have fine‐tuned mating behavior in relation to rival male relatedness. Further, polyandry often results in litters sired by multiple males. Litter mates of such litters have a reduced relatedness and are thus expected to be less cooperative during gestation and lactation, which may impair growth. Following double matings with either two full‐sibling males or two unrelated males, we compared offspring growth at birth and during lactation. Against our prediction, there was no difference in growth between litters sired either by two full‐sibling males or by two unrelated males. Either the conflict was not severe enough to be visible with our sample size (N = 16) or it may have been resolved by maternal control of offspring provisioning.     

Fitness effects of female mate choice: preferred males are detrimental for Drosophila melanogaster females

The evolution of female mate choice, broadly defined to include any female behaviour or morphology which biases matings towards certain male phenotypes, is traditionally thought to result from direct or indirect benefits which females acquire when mating with preferred males. In contrast, new models have shown that female mate choice can be generated by sexual conflict, where preferred males may cause a fitness depression in females. Several studies have shown that female Drosophila melanogaster bias matings towards large males. Here, we use male size as a proxy for male attractiveness and test how female fitness is affected by reproducing with large or small males, under two different male densities. Females housed with large males had reduced lifespan and aged at an accelerated rate compared with females housed with small males, and increased male density depressed female fitness further. These fitness differences were due to effects on several different fitness components. Female fitness covaried negatively with male courtship rate, which suggests a cost of courtship. Mating rate increased with male size, whereas female fitness peaked at an intermediate mating rate. Our results suggest that female mate choice in D. melanogaster is, at least in part, a by-product of sexual conflict over the mating rate.     

Effect of male age on sperm traits and sperm competition success in the guppy (Poecilia reticulata)

Deleterious mutations can accumulate in the germline with age, decreasing the genetic quality of sperm and imposing a cost on female fitness. If these mutations also affect sperm competition ability or sperm production, then females will benefit from polyandry as it incites sperm competition and, consequently, minimizes the mutational load in the offspring. We tested this hypothesis in the guppy (Poecilia reticulata), a species characterized by polyandry and intense sperm competition, by investigating whether age affects post‐copulatory male traits and sperm competition success. Females did not discriminate between old and young males in a mate choice experiment. While old males produced longer and slower sperm with larger reserves of strippable sperm, compared to young males, artificial insemination did not reveal any effect of age on sperm competition success. Altogether, these results do not support the hypothesis that polyandry evolved in response to costs associated with mating with old males in the guppy.