格陵兰岛稳定的水同位素和尘埃记录确定了末次冰期气候的稳定静时和静间状态

Keno Riechers, Leonardo Rydin Gorjão, Forough Hassanibesheli, P. Lind, D. Witthaut, N. Boers
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引用次数: 1

摘要

摘要在末次冰期,北半球气候被两种典型气候状态之间的一系列突变所打断。匀速(冷)期和间速(温和)期的存在通常归因于北大西洋冰川气候系统的假设双稳定性,允许从匀速状态到间速状态的快速转变-即所谓的Dansgaard-Oeschger (DO)事件-以及更缓慢但仍然相当突然的反向转变。驱动这些政权转变的物理机制仍然存在争议。DO事件的特征是格陵兰岛的大幅升温和北半球大气环流的重组,这从格陵兰冰芯的δ18O比率和粉尘浓度记录的伴随变化中可以明显看出。将北格陵兰冰芯项目(NGRIP)获得的δ18O和尘埃组合记录作为二维、时间均匀和马尔可夫随机过程的实现,我们基于Kramers-Moyal方程的首阶项重建了其潜在的确定性漂移。分析揭示了二维状态空间中的两个吸引力盆地,它们可以被识别为静态和静间状态。尘埃的漂移项表现出双重分岔结构,而与流行的假设相反,漂移的δ18O分量显然是单稳定的。这表明末次冰期格陵兰岛的温度不应被视为一个内在的双稳态气候变量。相反,δ18O记录的双状态性质显然是继承自与另一个双稳态气候过程的耦合。相比之下,尘埃漂移所证明的双稳定性表明,末次冰期北半球大气存在两种稳定的环流体制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stable stadial and interstadial states of the last glacial's climate identified in a combined stable water isotope and dust record from Greenland
Abstract. During the last glacial interval, the Northern Hemisphere climate was punctuated by a series of abrupt changes between two characteristic climate regimes. The existence of stadial (cold) and interstadial (milder) periods is typically attributed to a hypothesised bistability in the glacial North Atlantic climate system, allowing for rapid transitions from the stadial to the interstadial state – the so-called Dansgaard–Oeschger (DO) events – and more gradual yet still fairly abrupt reverse shifts. The physical mechanisms driving these regime transitions remain debated. DO events are characterised by substantial warming over Greenland and a reorganisation of the Northern Hemisphere atmospheric circulation, which are evident from concomitant shifts in the δ18O ratios and dust concentration records from Greenland ice cores. Treating the combined δ18O and dust record obtained by the North Greenland Ice Core Project (NGRIP) as a realisation of a two-dimensional, time-homogeneous, and Markovian stochastic process, we present a reconstruction of its underlying deterministic drift based on the leading-order terms of the Kramers–Moyal equation. The analysis reveals two basins of attraction in the two-dimensional state space that can be identified with the stadial and interstadial regimes. The drift term of the dust exhibits a double-fold bifurcation structure, while – in contrast to prevailing assumptions – the δ18O component of the drift is clearly mono-stable. This suggests that the last glacial's Greenland temperatures should not be regarded as an intrinsically bistable climate variable. Instead, the two-regime nature of the δ18O record is apparently inherited from a coupling to another bistable climate process. In contrast, the bistability evidenced in the dust drift points to the presence of two stable circulation regimes of the last glacial's Northern Hemisphere atmosphere.
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