Episodic sediment accumulation linked to global change in the endorheic Qaidam Basin of the Tibetan Plateau revealed by feldspar luminescence dating

IF 1.7 2区地球科学 Q3 GEOGRAPHY, PHYSICAL

Quaternary Geochronology Pub Date : 2024-04-01 DOI:10.1016/j.quageo.2024.101522

Zhaojing Ding , Songlin Gong , Guoqiao Xiao , Yixuan Wang , Weitao Yuan , Jianwei Zhang , Jiang Wang , Zhongping Lai

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引用次数: 0

Abstract

Given its high accumulation rate in sediments, the endorheic basin in arid regions plays a crucial role in reconstructing paleo-environment. However, it would not provide high-resolution climatic records if significant wind-eroded depositional hiatuses were inevitable within a severe wind environment. Unconformable contacts have been found during field survey in the top part of the stratigraphy in the Qaidam Basin, a prototypical endorheic basin in central Asia. To elucidate whether the sediment is continuous, we employed luminescence dating methods of feldspar pIR₂₀₀IR₂₅₀ and quartz OSL to date sediments, including lacustrine sediments and salt crusts, from the Qarhan Playa that is the Quaternary depositional center of the Qaidam Basin. Various experiment tests, including preheat plateau, dose recovery, and residual dose, were conducted. The dating results show that the feldspar pIR₂₀₀IR₂₅₀ can provide dependable ages with negligible residual doses. The pIR₂₀₀IR₂₅₀ dating ages within the last glacial cycle reveal several environmental shifts. A Qarhan paleolake in Marine Isotope Stage (MIS) 5 was demonstrated by the cluster ages of ∼140–80 ka of lacustrine sediments. The salt crust ages of 136 ± 10 ka and 97 ± 6 ka indicate that, before completely disappeared, the paleolake with shallow dish-shape depression had been dried up more than once, illustrating “shallow——dry——shallow” cycles. The playa in the eastern Qaidam Basin evolved mainly in warm periods, such as MIS 5 and MIS 1, supported by the salt crust ages of MIS 5 (136 ± 10 ka and 97 ± 6 ka) and MIS 1 (10 ± 1 ka and 0.6 ± 0.1 ka). Depositional hiatus in the last glacial cycle were identified by unconformable contacts in three sections between the lacustrine strata and their overlying playa strata, with corresponding age gaps of 158 ± 20–97 ± 6 ka, 131 ± 10–10 ± 1 ka, and 84 ± 7–0.6 ± 0.1 ka, respectively. In all the three sections the sediments for the whole of the last glacial period is missing, eroded by wind. This process should have occurred periodically during the glacial-interglacial cycles of the orbital global climatic changes. The results also show that hiatuses are common for endorheic basins on the Earth with age gaps of up to ∼100 ka, suggesting that robust chronology should be established before any climatic correlation due to severe wind erosion leading to episodic sediment accumulation.

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长石发光测年揭示青藏高原柴达木盆地内生沉积物的偶发性堆积与全球变化的关系

干旱地区的内流体盆地由于其沉积物的高积累率，在重建古环境方面发挥着至关重要的作用。然而，如果在强风环境中不可避免地出现明显的风蚀沉积间断，则无法提供高分辨率的气候记录。在中亚典型的内流变盆地--柴达木盆地的实地勘测过程中，在地层的上部发现了互不衔接的接触点。为了阐明沉积物是否连续，我们采用了长石pIR200IR250和石英OSL的发光测年方法，对作为柴达木盆地第四纪沉积中心的Qarhan Playa的沉积物（包括湖泊沉积物和盐壳沉积物）进行了测年。进行了各种实验测试，包括预热高原、剂量恢复和剩余剂量。测年结果表明，长石 pIR200IR250 可以提供可靠的年代，残余剂量可以忽略不计。最后一个冰川周期内的 pIR200IR250 测定年龄揭示了若干环境变化。湖沼沉积物中 ∼ 140-80 ka 的群集年龄证明了处于海洋同位素阶段（MIS）5 的 Qarhan 古湖。盐壳年龄分别为 136 ± 10 ka 和 97 ± 6 ka，表明浅碟状凹陷的古湖泊在完全消失之前曾多次干涸，体现了 "浅--干--浅 "的循环。根据MIS 5（136±10 ka和97±6 ka）和MIS 1（10±1 ka和0.6±0.1 ka）的盐壳年龄，柴达木盆地东部的洼地主要演化于温暖时期，如MIS 5和MIS 1。最后一个冰川周期的沉积间断是通过三个断面中湖泊地层与其上覆的游戏地层之间的不整合接触确定的，相应的年龄差距分别为 158 ± 20-97 ± 6 ka、131 ± 10-10 ± 1 ka 和 84 ± 7-0.6 ± 0.1 ka。在这三个断面中，整个末次冰川期的沉积物都被风侵蚀而消失了。在冰川-间冰期的轨道全球气候变化周期中，这一过程应该是周期性发生的。研究结果还表明，地球上的内流体盆地普遍存在时间间断现象，其年龄差距可达 100 ka，这表明，由于严重的风蚀导致沉积物的偶发性堆积，在进行任何气候相关性研究之前，应建立健全的年代学。

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来源期刊

Quaternary Geochronology 地学-地球化学与地球物理

CiteScore

4.40

自引率

22.20%

发文量

130

审稿时长

20 weeks

期刊介绍： Quaternary Geochronology is an international journal devoted to the publication of the highest-quality, peer-reviewed articles on all aspects of dating methods applicable to the Quaternary Period - the last 2.6 million years of Earth history. Reliable ages are fundamental to place changes in climates, landscapes, flora and fauna - including the evolution and ecological impact of humans - in their correct temporal sequence, and to understand the tempo and mode of geological and biological processes.