Department of Biological Sciences, University of Notre Dame, 100 Galvin Life Sciences Center, Notre Dame, IN, 46556, U.S.A.
Department of Biological Sciences, Wayne State University, 5047 Gullen Mall, Detroit, MI, 48202, U.S.A.
Biol Rev Camb Philos Soc. 2021 Oct;96(5):1969-1988. doi: 10.1111/brv.12735. Epub 2021 May 26.
A key to understanding life's great diversity is discerning how competing organisms divide limiting resources to coexist in diverse communities. While temporal resource partitioning has long been hypothesized to reduce the negative effects of interspecific competition, empirical evidence suggests that time may not often be an axis along which animal species routinely subdivide resources. Here, we present evidence to the contrary in the world's most biodiverse group of animals: insect parasites (parasitoids). Specifically, we conducted a meta-analysis of 64 studies from 41 publications to determine if temporal resource partitioning via variation in the timing of a key life-history trait, egg deposition (oviposition), mitigates interspecific competition between species pairs sharing the same insect host. When competing species were manipulated to oviposit at (or near) the same time in or on a single host in the laboratory, competition was common, and one species was typically inherently superior (i.e. survived to adulthood a greater proportion of the time). In most cases, however, the inferior competitor could gain a survivorship advantage by ovipositing earlier (or in a smaller number of cases later) into shared hosts. Moreover, this positive (or in a few cases negative) priority advantage gained by the inferior competitor increased as the interval between oviposition times became greater. The results from manipulative experiments were also correlated with patterns of life-history timing and demography in nature: the more inherently competitively inferior a species was in the laboratory, the greater the interval between oviposition times of taxa in co-occurring populations. Additionally, the larger the interval between oviposition times of competing taxa, the more abundant the inferior species was in populations where competitors were known to coexist. Overall, our findings suggest that temporal resource partitioning via variation in oviposition timing may help to facilitate species coexistence and structures diverse insect communities by altering demographic measures of species success. We argue that the lack of evidence for a more prominent role of temporal resource partitioning in promoting species coexistence may reflect taxonomic differences, with a bias towards larger-sized animals. For smaller species like parasitic insects that are specialized to attack one or a group of closely related hosts, have short adult lifespans and discrete generation times, compete directly for limited resources in small, closed arenas and have life histories constrained by host phenology, temporal resource subdivision via variation in life history may play a critical role in allowing species to coexist by alleviating the negative effects of interspecific competition.
理解生命多样性的关键在于辨别竞争生物如何分配有限资源,以在多样化的群落中共存。虽然时间资源划分长期以来一直被假设可以减少种间竞争的负面影响,但实证证据表明,时间可能并非动物物种通常细分资源的轴。在这里,我们在世界上最具生物多样性的动物群体中提供了相反的证据:昆虫寄生虫(寄生蜂)。具体来说,我们对 41 篇出版物中的 64 项研究进行了荟萃分析,以确定通过关键生活史特征(产卵)的时间变化进行时间资源划分是否可以减轻共享同一昆虫宿主的物种对之间的种间竞争。当竞争物种在实验室中被操纵为在单个宿主上或在单个宿主中同时(或接近同时)产卵时,竞争很常见,而且一种物种通常具有内在优势(即,在成年期存活的比例更大)。然而,在大多数情况下,通过较早(或在少数情况下较晚)将卵产入共享的宿主中,劣势竞争者可以获得生存优势。此外,劣势竞争者获得的这种积极(或在少数情况下为消极)优先级优势随着产卵时间间隔的增加而增加。操纵实验的结果也与自然界中生活史时间和人口统计学模式相关:在实验室中,物种的内在竞争力越弱,共生种群中物种产卵时间的间隔就越大。此外,竞争分类单元的产卵时间间隔越大,在已知竞争物种共存的种群中,劣势物种就越丰富。总体而言,我们的研究结果表明,通过产卵时间的变化进行时间资源划分可能有助于促进物种共存,并通过改变物种成功的人口统计学措施来构建多样化的昆虫群落。我们认为,时间资源划分在促进物种共存方面的作用不明显,这可能反映了分类学差异,偏向于较大的动物。对于像寄生昆虫这样专门攻击一个或一组密切相关宿主的较小物种,它们的成虫寿命短,世代时间离散,在小而封闭的场地上直接争夺有限的资源,并且其生活史受到宿主物候的限制,通过生活史的变化进行时间资源细分可能在缓解种间竞争的负面影响方面发挥关键作用,从而使物种共存成为可能。
