The soil mosaic hypothesis: a synthesis of multi-trophic diversification via soil heterogeneity

IF 0.2 Q4 EVOLUTIONARY BIOLOGY
Andrea E. Glassmire, J. Jahner, Kevin J. Badik, M. Forister, Angela M. Smilanich, L. Dyer, Joseph S. Wilson
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引用次数: 5

Abstract

Myriad unexplored mechanisms potentially drive ecological speciation and could help explain global variation in diversity. Here, we develop a novel hypothesis focused on variation in biotic, chemical, and physical properties of soil as a factor contributing to diversification in communities of plants and animals. The Soil Mosaic Hypothesis (SMH) suggests that differences in soil attributes can affect intraspecific variation in phytochemistry, leading to cascading ecological and evolutionary effects on higher trophic levels. To illustrate the potential importance of the SMH, we examine three underlying ideas: (1) plant species and species assemblages shift over time, exposing them to novel soil environments, which can lead to ge netic differentiation; (2) differences in soil properties can alter phytochemistry via plasticity and local adaptation; (3) phytochemistry can drive herbivore diversification via divergent natural selection (i.e. ecological speciation). The SMH provides insight into the process of diversification in a variety of landscapes and at a variety of scales and may inform analyses of diversification at local, regional, and global scales.
土壤马赛克假说:土壤异质性对多营养多样化的综合
无数尚未探索的机制可能驱动生态物种形成,并有助于解释全球多样性的变化。在这里,我们提出了一个新的假设,重点是土壤的生物、化学和物理特性的变化,这是促进动植物群落多样化的一个因素。土壤镶嵌假说(SMH)表明,土壤属性的差异会影响植物化学的种内变异,导致对更高营养水平的连锁生态和进化影响。为了说明SMH的潜在重要性,我们研究了三个基本观点:(1)植物物种和物种组合随着时间的推移而变化,使它们暴露在新的土壤环境中,这可能导致遗传分化;(2) 土壤性质的差异可以通过可塑性和局部适应改变植物化学;(3) 植物化学可以通过不同的自然选择(即生态物种形成)来推动食草动物的多样化。SMH提供了对各种景观和各种规模的多样化过程的深入了解,并可能为地方、区域和全球规模的多样化分析提供信息。
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来源期刊
Ideas in Ecology and Evolution
Ideas in Ecology and Evolution EVOLUTIONARY BIOLOGY-
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审稿时长
36 weeks
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