进化生态学中的临界性与标度律

Criticality and scaling in evolutionary ecology.

作者信息

Solé RV, Manrubia SC, Benton M, Kauffman S, Bak P

出版信息

Trends Ecol Evol. 1999 Apr;14(4):156-160. doi: 10.1016/s0169-5347(98)01518-3.

Abstract

Fluctuations in ecological systems are known to involve a wide range of spatial and temporal scales, often displaying self-similar (fractal) properties. Recent theoretical approaches are trying to shed light on the nature of these complex dynamics. The results suggest that complexity in ecology and evolution comes from the network-like structure of multispecies communities that are close to instability. If true, these ideas might change our understanding of how complexity emerges in the biosphere and how macroevolutionary events could be decoupled from microevolutionary ones.

摘要

众所周知，生态系统的波动涉及广泛的空间和时间尺度，常常呈现出自相似（分形）特性。最近的理论方法试图阐明这些复杂动态的本质。结果表明，生态与进化中的复杂性源于接近不稳定状态的多物种群落的网络状结构。如果这是真的，这些观点可能会改变我们对生物圈中复杂性如何出现以及宏观进化事件如何与微观进化事件脱钩的理解。

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进化生态学中的临界性与标度律

Criticality and scaling in evolutionary ecology.

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