Summer warming during Heinrich Stadial 1 in Northeast China

Geology Pub Date : 2024-02-26 DOI:10.1130/g51881.1
Zeyang Zhu, Jing Wu, G. Chu, P. Rioual, Jiaxin Lu, Luo Wang, Jiaqi Liu
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Abstract

The last deglaciation is considered a key period for exploring the underlying dynamics of temperature changes because it was characterized by multiple millennial-scale abrupt climatic events. However, the limited number of quantitative temperature records in Northeast (NE) China covering the last deglaciation hampers a complete understanding of the mechanisms and processes behind the temperature changes that occurred in that region. Here, we present a quantitative reconstruction of summer temperature over the last deglaciation based on bacterial branched glycerol dialkyl glycerol tetraethers (brGDGTs) analyzed from the sediment sequence of Lake Kielguo, a small volcanic lake in NE China. The results show that summer temperature was lowest during the interval ca. 20−18.2 calibrated (cal.) k.y. B.P. with a value of ∼11.1 °C and increased by ∼1.9 °C during Heinrich Stadial 1 (HS1) and by ∼2.7 °C during the transition to the Bølling-Allerød (B-A). The summer temperatures during the B-A warm interval and Younger Dryas cold interval were ∼14.1 °C and ∼12.0 °C, respectively. The summer temperature record from the Lake Kielguo sediment sequence indicates that summer warming dominated the climate change state during HS1 in East Asia, which is different from the cooling pattern controlled by winter temperatures in the North Atlantic and Greenland realms. This distinction can be explained by weakened winter cooling signals triggered by the collapse of Atlantic Meridional Overturning Circulation when these signals propagated to East Asia, and increased summer temperature warming controlled by orbital and greenhouse gases during HS1 in East Asia.
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中国东北地区海因里希 1 号极昼期间的夏季升温
末次冰期被认为是探索气温变化基本动态的关键时期,因为这一时期发生了多个千年尺度的气候突变事件。然而,中国东北地区涵盖末次冰期的定量温度记录数量有限,妨碍了对该地区温度变化背后的机制和过程的全面了解。在此,我们基于对中国东北小火山湖--开国湖沉积序列中的细菌支链甘油二烷基甘油四醚(brGDGTs)的分析,定量重建了末次冰期的夏季温度。结果表明,夏季气温在约公元前 20-18.2 k.y.期间最低,为 11.1 °C,在 Heinrich Stadial 1(HS1)期间上升了 1.9 °C,在向 Bølling-Allerød (B-A)过渡期间上升了 2.7 °C。B-A暖期和Younger Dryas冷期的夏季气温分别为14.1 °C和12.0 °C。基尔果湖沉积序列的夏季温度记录表明,HS1期间东亚地区的气候变化状态以夏季变暖为主,这与北大西洋和格陵兰地区由冬季温度控制的冷却模式不同。这种区别可以解释为,大西洋经向翻转环流崩溃引发的冬季降温信号传播到东亚时减弱,而东亚在 HS1 期间受轨道和温室气体控制的夏季温度升高。
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