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在公共物品博弈中,合作者需权衡生态恢复力和进化稳定性。

Cooperators trade off ecological resilience and evolutionary stability in public goods games.

作者信息

Rauch Joseph, Kondev Jane, Sanchez Alvaro

机构信息

Department of Physics and Howard Hughes Medical Institute, Brandeis University, 405 South Street, Waltham, MA 02542, USA

The Rowland Institute, Harvard University, 100 Edwin Land Blvd, Cambridge, MA 02142, USA.

出版信息

J R Soc Interface. 2017 Feb;14(127). doi: 10.1098/rsif.2016.0967.

DOI:10.1098/rsif.2016.0967
PMID:28148770
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5332582/
Abstract

Microbial populations often rely on the cooperative production of extracellular 'public goods' molecules. The cooperative nature of public good production may lead to minimum viable population sizes, below which populations collapse. In addition, 'cooperator' public goods producing individuals face evolutionary competition from non-producing mutants, or 'freeloaders'. Thus, public goods cooperators should be resilient not only to the invasion of freeloaders, but also to ecological perturbations that may push their populations below a sustainable threshold. Through a mathematical analysis of the Ecological Public Goods Game, we show that game parameters that improve the cooperating population's stability to freeloader invasion also lead to a low ecological resilience. Complex regulatory strategies mimicking those used by microbes in nature may allow cooperators to beat this trade-off and become evolutionarily stable to invading freeloaders while at the same time maximizing their ecological resilience. Our results thus identify the coupling between resilience to evolutionary and ecological challenges as a key factor for the long-term viability of public goods cooperators.

摘要

微生物群体通常依赖于细胞外“公共物品”分子的协同产生。公共物品产生的合作性质可能导致最小可行种群规模,低于这个规模种群就会崩溃。此外,“合作者”这种产生公共物品的个体面临着来自不产生公共物品的突变体(即“搭便车者”)的进化竞争。因此,公共物品合作者不仅应该能够抵御搭便车者的入侵,还应该能够抵御可能使它们的种群低于可持续阈值的生态扰动。通过对生态公共物品博弈的数学分析,我们表明,提高合作种群对搭便车者入侵稳定性的博弈参数也会导致较低的生态恢复力。模仿自然界微生物所使用的复杂调控策略可能使合作者克服这种权衡,在对入侵的搭便车者具有进化稳定性的同时,最大化其生态恢复力。因此,我们的结果表明,对进化和生态挑战的恢复力之间的耦合是公共物品合作者长期生存能力的关键因素。

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