Parvinen Kalle, Brännström Åke
Department of Mathematics and Statistics, University of Turku, 20014, Turku, Finland.
Evolution and Ecology Program, International Institute for Applied Systems Analysis, 2361, Laxenburg, Austria.
Bull Math Biol. 2016 Aug;78(8):1749-72. doi: 10.1007/s11538-016-0198-5. Epub 2016 Sep 19.
Species that compete for access to or use of sites, such as parasitic mites attaching to honey bees or apple maggots laying eggs in fruits, can potentially increase their fitness by carefully selecting sites at which they face little or no competition. Here, we systematically investigate the evolution of site-selection strategies among animals competing for discrete sites. By developing and analyzing a mechanistic and population-dynamical model of site selection in which searching individuals encounter sites sequentially and can choose to accept or continue to search based on how many conspecifics are already there, we give a complete characterization of the different site-selection strategies that can evolve. We find that evolution of site-selection stabilizes population dynamics, promotes even distribution of individuals among sites, and occasionally causes evolutionary suicide. We also discuss the broader implications of our findings and propose how they can be reconciled with an earlier study (Nonaka et al. in J Theor Biol 317:96-104, 2013) that reported selection toward ever higher levels of aggregation among sites as a consequence of site-selection.
争夺场地使用权或场地利用权的物种,比如附着在蜜蜂身上的寄生螨,或是在果实中产卵的苹果实蝇,通过精心挑选竞争较小或没有竞争的场地,有可能提高自身的适应性。在此,我们系统地研究了争夺离散场地的动物中场地选择策略的演变。通过建立并分析一个场地选择的机械和种群动力学模型,在该模型中,搜索个体依次遇到各个场地,并能根据已有同种个体的数量选择接受或继续搜索,我们全面刻画了可能进化出的不同场地选择策略。我们发现,场地选择的进化使种群动态稳定,促进个体在各场地间均匀分布,偶尔还会导致进化自杀。我们还讨论了研究结果的更广泛意义,并提出如何将其与早期一项研究(Nonaka等人,《理论生物学杂志》317:96 - 104,2013年)相协调,该研究报告称,由于场地选择,会选择场地间更高程度的聚集。