van Kooten Tobias, Persson Lennart, de Roos André M
Department of Ecology and Environmental Science, Umea University, S-901 87 Umea, Sweden.
Am Nat. 2007 Aug;170(2):258-70. doi: 10.1086/518947. Epub 2007 Jun 11.
The majority of taxa grow significantly during life history, which often leads to individuals of the same species having different ecological roles, depending on their size or life stage. One aspect of life history that changes during ontogeny is mortality. When individual growth and development are resource dependent, changes in mortality can affect the outcome of size-dependent intraspecific resource competition, in turn affecting both life history and population dynamics. We study the outcome of varying size-dependent mortality on two life-history types, one that feeds on the same resource throughout life history and another that can alternatively cannibalize smaller conspecifics. Compensatory responses in the life history dampen the effect of certain types of size-dependent mortality, while other types of mortality lead to dramatic changes in life history and population dynamics, including population (de-)stabilization, and the growth of cannibalistic giants. These responses differ strongly among the two life-history types. Our analysis provides a mechanistic understanding of the population-level effects that come about through the interaction between individual growth and size-dependent mortality, mediated by resource dependence in individual vital rates.
大多数分类单元在生活史中会显著生长,这通常导致同一物种的个体根据其大小或生活阶段具有不同的生态角色。个体发育过程中生活史发生变化的一个方面是死亡率。当个体的生长和发育依赖于资源时,死亡率的变化会影响大小依赖性种内资源竞争的结果,进而影响生活史和种群动态。我们研究了不同大小依赖性死亡率对两种生活史类型的影响,一种在整个生活史中以相同资源为食,另一种则可以捕食较小的同种个体。生活史中的补偿反应会减弱某些类型的大小依赖性死亡率的影响,而其他类型的死亡率则会导致生活史和种群动态的巨大变化,包括种群(去)稳定以及食同类巨型个体的生长。这两种生活史类型的反应差异很大。我们的分析提供了一种机制性的理解,即通过个体生长与大小依赖性死亡率之间的相互作用所产生的种群水平效应,这种相互作用由个体生命率中的资源依赖性介导。