Retreating ice sheet caused a transition from cold-dry to cold-humid conditions in arid Central Asia

IF 3.2 1区 地球科学 Q1 GEOGRAPHY, PHYSICAL
Liangqing Cheng , Hao Long , Jingran Zhang , Yubin Wu , Jun Cheng , Linhai Yang , Hongyi Cheng
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Abstract

Water is critical for ecological systems in arid regions, making it imperative to understand how moisture in arid Central Asia (CA) responds to anthropogenic warming. The oscillation of warming and cooling events since the Last Glacial Maximum (LGM, ∼24–19.5 ka) provides a window for exploring the relationship between moisture and temperature. Employing 109 luminescence ages derived from eight sand dune sediment cores in the Bayanbulak Basin in the CA, this study endeavors to reconstruct the evolution of sand accumulation, and by extension, moisture dynamics. We found that pre-Holocene sand accumulation was predominant during the LGM and Heinrich Stadial 1 (HS1, ∼18–14.6 ka), indicative of a cold-dry climate prevailing during these two cold stages. During the Holocene, sand accumulation during Early Holocene is significantly stronger than that during Middle-late Holocene, supporting a long-term wetting trend. Additionally, this study reveals that the colder Little Ice Age (LIA, ∼0.55–0.2 ka) exhibited a wetter condition compared to the warmer Medieval Warming Period (MWP, ∼1–0.55 ka), indicating a cold-humid climate during the LIA. Corroborated by TraCE-21ka (Transient Climate of the Last 21,000 Years) simulation, we propose that diminished evaporation over North Atlantic during the LGM and HS1 potentially led to a reduction in water vapor transported by westerlies to the CA. During the Middle and Late Holocene, increased evaporation over North Atlantic, attributed to decreased ice sheet, westerlies intensity became the primary limiting factor. Notably, stronger westerlies during the LIA could have contributed to elevated moisture levels compared to the MWP. These findings not only resolve the debate surrounding the transition from cold-dry to cold-humid conditions but also enhance our comprehension of future moisture variations.
冰盖退缩导致中亚干旱地区从寒冷干燥过渡到寒冷潮湿环境
水对于干旱地区的生态系统至关重要,因此了解中亚干旱地区的水汽如何对人为变暖做出反应至关重要。自末次冰川极盛时期(LGM,∼24-19.5 ka)以来,气候变暖和变冷的振荡为探索水分与温度之间的关系提供了一个窗口。本研究利用从加利福尼亚州巴音布鲁克盆地的八个沙丘沉积物岩心中提取的 109 个发光年龄,试图重建沙丘堆积的演变过程,并进而重建湿度动态。我们发现,在全新世和海因里希晚期 1(HS1,∼18-14.6 ka)期间,全新世以前的积沙占主导地位,表明在这两个寒冷阶段盛行寒冷干燥的气候。在全新世期间,全新世早期的积沙明显强于全新世中晚期,支持了长期湿润的趋势。此外,该研究还揭示了较冷的小冰河时期(LIA,∼0.55-0.2 ka)与较暖的中世纪温暖期(MWP,∼1-0.55 ka)相比呈现出较湿润的状态,表明小冰河时期气候寒冷潮湿。通过TraCE-21ka(Transient Climate of the Last 21,000Years)模拟,我们认为,在LGM和HS1期间,北大西洋蒸发量的减少可能导致西风向CA输送的水汽减少。在全新世中期和晚期,北大西洋蒸发量的增加归因于冰盖的减少,西风强度成为主要的限制因素。值得注意的是,与小水期间相比,大水期间更强的西风可能导致了水汽水平的升高。这些发现不仅解决了围绕从寒冷干燥过渡到寒冷潮湿条件的争论,而且提高了我们对未来水汽变化的理解。
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来源期刊
Quaternary Science Reviews
Quaternary Science Reviews 地学-地球科学综合
CiteScore
7.50
自引率
15.00%
发文量
388
审稿时长
3 months
期刊介绍: Quaternary Science Reviews caters for all aspects of Quaternary science, and includes, for example, geology, geomorphology, geography, archaeology, soil science, palaeobotany, palaeontology, palaeoclimatology and the full range of applicable dating methods. The dividing line between what constitutes the review paper and one which contains new original data is not easy to establish, so QSR also publishes papers with new data especially if these perform a review function. All the Quaternary sciences are changing rapidly and subject to re-evaluation as the pace of discovery quickens; thus the diverse but comprehensive role of Quaternary Science Reviews keeps readers abreast of the wider issues relating to new developments in the field.
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