Rate-induced tipping in natural and human systems

Earth system dynamics : ESD Pub Date : 2023-06-14 DOI:10.5194/esd-14-669-2023

P. Ritchie, H. Alkhayuon, P. Cox, Sebastian Wieczorek

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引用次数: 7

Abstract

Abstract. Over the last 2 decades, tipping points in open systems subject to changing external conditions have become a topic of a heated scientific debate due to the devastating consequences that they may have on natural and human systems. Tipping points are generally believed to be associated with a system bifurcation at some critical level of external conditions. When changing external conditions across a critical level, the system undergoes an abrupt transition to an alternative, and often less desirable, state. The main message of this paper is that the rate of change in external conditions is arguably of even greater relevance in the human-dominated Anthropocene but is rarely examined as a potential sole mechanism for tipping points. Thus, we address the related phenomenon of rate-induced tipping: an instability that occurs when external conditions vary faster, or sometimes slower, than some critical rate, usually without crossing any critical levels (bifurcations). First, we explain when to expect rate-induced tipping. Then, we use three illustrative and distinctive examples of differing complexity to highlight the universal and generic properties of rate-induced tipping in a range of natural and human systems.

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自然和人类系统中由速率引起的倾斜

摘要在过去的20年里，受外部条件变化影响的开放系统的临界点已经成为一个激烈的科学争论的话题，因为它们可能对自然和人类系统产生毁灭性的后果。一般认为，在外部条件的某些临界水平上，临界点与系统分叉有关。当在临界水平上改变外部条件时，系统会突然过渡到另一种状态，通常是不太理想的状态。这篇论文的主要信息是，在人类主导的人类世中，外部条件的变化率可以说具有更大的相关性，但很少被视为临界点的潜在机制。因此，我们解决了速率诱导倾翻的相关现象：当外部条件的变化速度比某个临界速率更快，有时更慢时，通常不会跨越任何临界水平（分叉），就会发生不稳定。首先，我们解释了何时预期利率引发的倾斜。然后，我们使用三个具有不同复杂性的说明性和独特性的例子来强调在一系列自然和人类系统中速率诱导倾斜的普遍性和一般性。

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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Earth system dynamics : ESD

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