A theory of glacial cycles: resolving Pleistocene puzzles

Climate of The Past Discussions Pub Date : 2021-07-20 DOI:10.5194/CP-2021-94

Hsien-Wang Ou

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引用次数: 1

Abstract

Abstract. Since the summer surface air temperature that regulates the ice margin is anchored on the sea surface temperature, we posit that the climate system constitutes the intermediary of the orbital forcing of the glacial cycles. As such, the relevant forcing is the annual solar flux absorbed by the ocean, which naturally filters out the precession effect in early Pleistocene but mimics the Milankovitch insolation in late Pleistocene. For a coupled climate system that is inherent turbulent, we show that the ocean may be bistable with a cold state defined by the freezing point subpolar water, which would translate to ice bistates between a polar ice cap and an ice sheet extending to mid-latitudes, enabling large ice-volume signal regardless the forcing amplitude so long as the bistable thresholds are crossed. Such thresholds are set by the global convective flux, which would be lowered during the Pleistocene cooling, whose interplay with the ice-albedo feedback leads to transitions of the ice signal from that dominated by obliquity to the emerging precession cycles to the ice-age cycles paced by eccentricity. Through a single dynamical framework, the theory thus may resolve many long-standing puzzles of the glacial cycles.

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冰期旋回理论:解决更新世难题

摘要由于调节冰缘的夏季地表气温锚定在海面温度上，我们假设气候系统构成了冰期旋回轨道强迫的中介。因此，相关的强迫是每年被海洋吸收的太阳通量，它自然地滤掉了更新世早期的岁差效应，但模拟了更新世晚期的米兰科维奇日晒。对于一个固有湍流的耦合气候系统，我们表明海洋可能是双稳态的，由冰点亚极水定义的冷状态，这将转化为极地冰盖和延伸到中纬度的冰盖之间的冰双稳态，只要跨越双稳态阈值，就可以实现大冰量信号，而不管强迫幅度如何。这些阈值是由全球对流通量设定的，在更新世冷却期间，全球对流通量将降低，其与冰反照率反馈的相互作用导致冰信号从以倾角为主的冰信号转变为新出现的岁差旋回，再转变为以偏心率为速度的冰期旋回。因此，通过一个单一的动力学框架，该理论可以解决许多长期存在的冰期旋回难题。

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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Climate of The Past Discussions

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