父母饮食对蟋蟀卵休眠、胚胎发育率和周期性爆发的影响

IF 2.3 2区 农林科学 Q1 ENTOMOLOGY
Robert B. Srygley
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引用次数: 0

摘要

跨代表型改变可改变生物体的适应性、种群人口统计学和群落相互作用。对于外温动物来说,食物组成和温度都会对生物的适应性产生重要影响,但很少同时对它们进行研究。摩门蟋 Anabrus simplex 能够以卵的形式在土壤中腹泻多年,腹泻持续时间主要取决于累积热量单位或度日。由于莫门蟋蟀可能在某一年大量繁殖,而第二年就会突然消失,因此我问:亲代营养是否会影响卵的休眠期?从蛹的末期开始,给摩门蟋喂高蛋白食物、蛋白质与碳水化合物含量相等的食物或高碳水化合物食物,并测量产卵后卵的发育时间。如果亲代营养会影响对温度敏感的卵停产,那么对温度敏感性的变化也可能会改变胚胎发育速度与温度之间的关系。我的问题是:亲代营养是否会影响胚胎发育率,使其成为温度的函数?为此,我操纵了田间笼子中的摩门蟋若虫和富含蛋白质的猎物(蚱蜢)的密度,收集了摩门蟋成虫的卵,并测量了后代胚胎发育的最佳温度、最大发育率和热广度。我发现,喂食高蛋白食物的摩门蟋产下的卵停滞期较短。与这一长期结果相一致的是,吃蚱蜢最多的蟋蟀产下的卵具有最快的最大发育速度,而不吃蚱蜢的蟋蟀产下的卵最大发育速度较慢,但热广度最大。饲养蚱蜢密度处于中等水平的摩门蟋产下的卵,随着密度的增加,最高发育率有所下降。此外,与更多同种蟋蟀一起饲养的摩门蟋产卵的发育速度更快,而热广度和最适温度则不受蟋蟀密度的影响。正如预测的那样,摩门蟋的饮食对卵的休眠和发育率有显著影响。与根据摩门蟋爆发期间观察到的食物偏好变化所做的预期相反,饲喂高蛋白食物的摩门蟋产卵的休眠期明显更短,卵的发育速度明显更快。有趣的是,摩门蟋密度增加一倍,卵的发育时间缩短近一半。后一项结果表明,摩门蟋的聚集促进了后代的快速发育。此外,雌性蟋蟀间歇性地停下来产卵,这种紧密的线性迁移带结构确保了后代在密集的群体中孵化和发育。通过这种方式,只要同群密度高且蛋白质充足,带状行为就有可能延续到后代。如果稀疏带状卵或限制蛋白质摄入,雌虫就会分散产卵,后代在土壤中产卵的时间也会延长。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effects of parental diet on Mormon cricket egg diapause, embryonic development rate, and periodic outbreaks

Effects of parental diet on Mormon cricket egg diapause, embryonic development rate, and periodic outbreaks

Transgenerational phenotypic modification can alter organismal fitness, population demographics, and community interactions. For ectotherms, both dietary composition and temperature have important effects on organismal fitness, but they are rarely investigated together. Mormon crickets Anabrus simplex are capable of diapausing as eggs in the soil for multiple years with duration largely dependent on cumulative heat units or degree days. Because Mormon crickets can be abundant in the landscape in one year and disappear suddenly the next, I asked: does parental nutrition affect the duration of egg diapause? Beginning in the ultimate nymphal instar, Mormon crickets were fed a diet high in protein, one equal in protein to carbohydrate, or a diet high in carbohydrates and the time for eggs to develop after they were laid was measured. If parental nutrition affects temperature-sensitive egg diapause, then that change in sensitivity to temperature might also alter the relationship between embryonic development rate and temperature. I asked: does parental nutrition affect embryonic development rate as a function of temperature? To this end, I manipulated densities of Mormon cricket nymphs and protein-rich prey (grasshoppers) in field cages, collected eggs from the adult Mormon crickets, and measured the optimal temperature, maximum development rate, and thermal breadth for embryonic development of the offspring. I found that Mormon crickets fed a high protein diet laid eggs with shorter diapause. Consistent with this long-term result, those housed with the most grasshoppers to eat laid eggs that had the fastest maximum development rate, whereas those without grasshoppers laid eggs with slower maximum developmental rates but the broadest thermal breadth. Eggs from Mormon crickets housed with intermediate levels of grasshopper densities had a decline in peak development rate with an increase in density. In addition, Mormon crickets housed with more conspecifics laid eggs with faster development rates, whereas thermal breadth and the temperature optima were not affected by cricket density. As predicted, Mormon cricket diets significantly affected egg diapause and development rates. Contrary to expectations based on observed changes in diet preferences during a Mormon cricket outbreak, Mormon crickets fed high protein diets laid eggs with significantly shorter egg diapause and significantly faster egg development rates. Interestingly, doubling of Mormon cricket density caused eggs to develop in nearly half the time. This latter result indicates that Mormon cricket aggregations promote rapid development of progeny. Moreover, the tight, linear structure of migratory bands in which females intermittently stop to lay eggs assures that the progeny hatch and develop in dense cohorts. In this manner, the banding behavior might carry-over into subsequent generations as long as cohorts are dense and protein is available. With band thinning or protein restriction, females spread their bet-hedging and progeny remain longer as eggs in the soil.

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来源期刊
Journal of insect physiology
Journal of insect physiology 生物-昆虫学
CiteScore
4.50
自引率
4.50%
发文量
77
审稿时长
57 days
期刊介绍: All aspects of insect physiology are published in this journal which will also accept papers on the physiology of other arthropods, if the referees consider the work to be of general interest. The coverage includes endocrinology (in relation to moulting, reproduction and metabolism), pheromones, neurobiology (cellular, integrative and developmental), physiological pharmacology, nutrition (food selection, digestion and absorption), homeostasis, excretion, reproduction and behaviour. Papers covering functional genomics and molecular approaches to physiological problems will also be included. Communications on structure and applied entomology can be published if the subject matter has an explicit bearing on the physiology of arthropods. Review articles and novel method papers are also welcomed.
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