Lemming and Vole Cycles: A New Intrinsic Model

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-21 DOI:10.1002/ece3.70440
Elizabeth A. Levay, Helen Nasser, Matthew D. Zelko, Jim Penman, Terrance G. Johns
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Abstract

It is 100 years since the first paper described the multiannual cycles in Arctic rodents and lagomorphs. The mechanisms driving population cycles in animals like lemmings and voles are complex, often attributed to extrinsic factors, such as food availability and quality, pathogens, parasites and/or predators. While extrinsic factors provide insights into population cycles, none fully explain the phenomenon. We propose an underlying innate, intrinsic mechanism, based on epigenetic regulation, that drives population cycles under harsh arctic conditions. We propose that epigenetically driven phenotypic changes associated with sexual development, growth and behaviour accumulate over time in offspring, eventually producing a phase change from rising population density to eventual population collapse. Under this hypothesis, and unlike previous hypotheses, extrinsic factors modify population cycles but would not be primary drivers. The interaction between our intrinsic cycle and extrinsic factors explains established phenomena like delayed-density dependence, whereby population growth is controlled by time-dependent negative feedback. We advocate integrating a century of field research with the latest epigenetic analysis to better understand the drivers of population cycles.

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旅鼠和田鼠的周期:一个新的内在模型
自第一篇描述北极啮齿动物和旅鼠多年周期的论文发表以来,已经过去了 100 年。旅鼠和田鼠等动物种群周期的驱动机制非常复杂,通常归因于外在因素,如食物的可获得性和质量、病原体、寄生虫和/或捕食者。虽然外在因素为种群周期提供了启示,但它们都不能完全解释这一现象。我们提出了一种基于表观遗传调控的先天内在机制,它能在严酷的北极条件下驱动种群周期。我们提出,由表观遗传驱动的与性发育、生长和行为相关的表型变化会在后代中逐渐累积,最终产生从种群密度上升到最终种群崩溃的阶段性变化。根据这一假说,与之前的假说不同,外在因素会改变种群周期,但不会成为主要驱动因素。内在循环与外在因素之间的相互作用解释了延迟密度依赖等既定现象,即种群增长受时间依赖性负反馈控制。我们主张将一个世纪以来的实地研究与最新的表观遗传分析相结合,以更好地理解种群周期的驱动因素。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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