The evolutionary dynamics of plastic foraging and its ecological consequences: a resource-consumer model

Léo Ledru, Jimmy Garnier, Océane Guillot, Erwan Faou, Camille Noûs, Sébastien Ibanez
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Abstract

Phenotypic plasticity has important ecological and evolutionary consequences. In particular, behavioural phenotypic plasticity such as plastic foraging (PF) by consumers, may enhance community stability. Yet little is known about the ecological conditions that favor the evolution of PF, and how the evolutionary dynamics of PF may modulate its effects on community stability. In order to address these questions, we constructed an eco-evolutionary model in which resource and consumer niche traits underwent evolutionary diversification. Consumers could either forage randomly, only as a function of resources abundance, or plastically, as a function of resource abundance, suitability and consumption by competitors. PF evolved when the niche breadth of consumers with respect to resource use was large enough and when the ecological conditions allowed substantial functional diversification. In turn, PF promoted further diversification of the niche traits in both guilds. This suggests that phenotypic plasticity can influence the evolutionary dynamics at the community-level. Faced with a sudden environmental change, PF promoted community stability directly and also indirectly through its effects on functional diversity. However, other disturbances such as persistent environmental change and increases in mortality, caused the evolutionary regression of the PF behaviour, due to its costs. The causal relationships between PF, community stability and diversity are therefore intricate, and their outcome depends on the nature of the environmental disturbance, in contrast to simpler models claiming a direct positive relationship between PF and stability.
塑料觅食的进化动态及其生态后果:一个资源消耗模型
表型可塑性具有重要的生态和进化后果。特别是,行为表型的可塑性,如消费者的塑料觅食(PF),可能会增强群落的稳定性。然而,人们对有利于PF进化的生态条件以及PF的进化动态如何调节其对群落稳定性的影响知之甚少。为了解决这些问题,我们构建了一个资源和消费者生态位特征经历进化多样化的生态进化模型。消费者可以随机搜寻(仅作为资源丰度的函数),也可以可塑性地搜寻(作为资源丰度、适宜性和竞争对手消费的函数)。当消费者在资源利用方面的生态位宽度足够大,当生态条件允许大量的功能多样化时,生态多样性就会发展。反过来,PF促进了两个公会中利基特性的进一步多样化。这表明表型可塑性可以影响群落水平上的进化动态。面对突如其来的环境变化,植物群落通过对功能多样性的影响,直接或间接地促进了群落的稳定。然而,其他干扰,如持续的环境变化和死亡率的增加,由于其成本,导致了PF行为的进化倒退。因此,群落稳定性和多样性之间的因果关系是复杂的,其结果取决于环境干扰的性质,与声称群落稳定性与群落稳定性之间存在直接正相关的简单模型相反。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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