A continuum of biological adaptations to environmental fluctuation

Ming Liu, D. Rubenstein, Wei-Chung Liu, Sheng-Feng Shen
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引用次数: 12

Abstract

Bet-hedging—a strategy that reduces fitness variance at the expense of lower mean fitness among different generations—is thought to evolve as a biological adaptation to environmental unpredictability. Despite widespread use of the bet-hedging concept, most theoretical treatments have largely made unrealistic demographic assumptions, such as non-overlapping generations and fixed or infinite population sizes. Here, we extend the concept to consider overlapping generations by defining bet-hedging as a strategy with lower variance and mean per capita growth rate across different environments. We also define an opposing strategy—the rising-tide—that has higher mean but also higher variance in per capita growth. These alternative strategies lie along a continuum of biological adaptions to environmental fluctuation. Using stochastic Lotka–Volterra models to explore the evolution of the rising-tide versus bet-hedging strategies, we show that both the mean environmental conditions and the temporal scales of their fluctuations, as well as whether population dynamics are discrete or continuous, are crucial in shaping the type of strategy that evolves in fluctuating environments. Our model demonstrates that there are likely to be a wide range of ways that organisms with overlapping generations respond to environmental unpredictability beyond the classic bet-hedging concept.
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生物适应环境变化的连续体
下注对冲——一种以降低不同代之间的平均适应度为代价来减少适应度差异的策略——被认为是进化为一种对环境不可预测性的生物适应。尽管广泛使用下注对冲概念,但大多数理论处理在很大程度上都做出了不切实际的人口假设,例如不重叠的世代和固定或无限的人口规模。在这里,我们通过将下注对冲定义为在不同环境中具有较低方差和平均人均增长率的策略,将这一概念扩展到考虑重叠代。我们还定义了一个相反的策略——涨潮——它在人均增长方面有更高的平均值,但也有更高的方差。这些可供选择的策略存在于对环境波动的生物适应的连续体中。使用随机Lotka-Volterra模型来探索涨潮与下注对冲策略的演变,我们表明,平均环境条件及其波动的时间尺度,以及种群动态是离散的还是连续的,对于塑造在波动环境中演变的策略类型至关重要。我们的模型表明,除了经典的下注对冲概念之外,具有重叠世代的生物体对环境不可预测性的反应可能有多种方式。
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