生态支架在微生物群体中利他主义的起源和维持中的作用。

C T Jones, L Meynell, C Neto, E Susko, J P Bielawski
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引用次数: 1

摘要

背景:亲缘关系和多层次选择为利他主义的存在提供了基于增强利他主义个体包容适合度的特征或过程的解释。亲缘选择通常基于个体层面的特征,例如识别其他利他主义者的能力,而多层次选择需要一个元种群结构和扩散过程。这些理论统一于一个普遍原则,即利他主义可以通过积极选择来固定,前提是利他主义的利益优先赋予其他利他主义者。在这里,我们采用一种不同的解释方法,基于最近提出的“生态支架”的概念。我们证明,生态条件包括产生超种群结构的不完整的营养供应、群体的偶发性混合和严重的营养限制,可以通过放大漂变来支持或“支撑”微生物种群中利他主义的进化。这与最近的论文形成对比,其中生态支架被证明支持选择性过程,并证明了即使在没有选择的情况下支架的力量。结果:在一个简单的理论模型的驱动下,我们使用计算机模拟表明,尽管在营养严重有限的情况下,一个利他突变体可以通过漂移在一个非利他群体中固定下来,但由此产生的利他群体仍然容易受到非利他突变体的影响。然后,我们展示了将“生态支架”强加于非利他主义者群体是如何以一种支持利他主义的固定和随后的持续存在的方式改变了选择和漂变之间的平衡,尽管有可能被非利他主义者入侵。结论:在生态条件的支持下,通过漂移固定利他突变体是可能的,这些生态条件施加了超种群结构,群体的间歇性混合和严重的营养限制。这很重要,因为它为利他主义的进化提供了另一种解释,这种进化是基于漂变而不是选择。鉴于微生物存在的无所不在的低营养“寡营养”环境(例如,开阔的海洋,深层地下土壤或极地冰盖下),我们的研究结果表明,利他主义和合作行为可能在微生物种群中非常普遍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The role of the ecological scaffold in the origin and maintenance of whole-group trait altruism in microbial populations.

The role of the ecological scaffold in the origin and maintenance of whole-group trait altruism in microbial populations.

The role of the ecological scaffold in the origin and maintenance of whole-group trait altruism in microbial populations.

The role of the ecological scaffold in the origin and maintenance of whole-group trait altruism in microbial populations.

Background: Kin and multilevel selection provide explanations for the existence of altruism based on traits or processes that enhance the inclusive fitness of an altruist individual. Kin selection is often based on individual-level traits, such as the ability to recognize other altruists, whereas multilevel selection requires a metapopulation structure and dispersal process. These theories are unified by the general principle that altruism can be fixed by positive selection provided the benefit of altruism is preferentially conferred to other altruists. Here we take a different explanatory approach based on the recently proposed concept of an "ecological scaffold". We demonstrate that ecological conditions consisting of a patchy nutrient supply that generates a metapopulation structure, episodic mixing of groups, and severe nutrient limitation, can support or "scaffold" the evolution of altruism in a population of microbes by amplifying drift. This contrasts with recent papers in which the ecological scaffold was shown to support selective processes and demonstrates the power of scaffolding even in the absence of selection.

Results: Using computer simulations motivated by a simple theoretical model, we show that, although an altruistic mutant can be fixed within a single population of non-altruists by drift when nutrients are severely limited, the resulting altruistic population remains vulnerable to non-altruistic mutants. We then show how the imposition of the "ecological scaffold" onto a population of non-altruists alters the balance between selection and drift in a way that supports the fixation and subsequent persistence of altruism despite the possibility of invasion by non-altruists.

Conclusions: The fixation of an altruistic mutant by drift is possible when supported by ecological conditions that impose a metapopulation structure, episodic mixing of groups, and severe nutrient limitation. This is significant because it offers an alternative explanation for the evolution of altruism based on drift rather than selection. Given the ubiquity of low-nutrient "oligotrophic" environments in which microbes exist (e.g., the open ocean, deep subsurface soils, or under the polar ice caps) our results suggest that altruistic and cooperative behaviors may be highly prevalent among microbial populations.

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