Dating post-LGM aeolian sedimentation and the Late Palaeolithic in Central Yakutia (northeastern Siberia)

IF 1.7 2区 地球科学 Q3 GEOGRAPHY, PHYSICAL Quaternary Geochronology Pub Date : 2024-06-25 DOI:10.1016/j.quageo.2024.101563
Mariya S. Lukyanycheva , Redzhep N. Kurbanov , Natalia A. Taratunina , Anzhela N. Vasilieva , Vasiliy M. Lytkin , Andrei V. Panin , Anton A. Anoikin , Thomas Stevens , Andrew S. Murray , Jan-Pieter Buylaert , Mads F. Knudsen
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Abstract

Central Yakutia is a large region in northeastern Siberia characterized by extensive permafrost, large river valleys, mountain glaciers, and large massifs of aeolian sands; the geological history of the region is complex and, at present, poorly constrained. In recent years, it has been shown that aeolian sands cover up to 60% of large parts of Central Yakutia. This paper presents the results of luminescence dating of aeolian sedimentation at the Diring Yuriakh Palaeolithic site located in the middle reaches of the Lena River. Field studies identified several thick units of aeolian sand, which cover an old deflation surface with Late (Duktai culture) and Early Palaeolithic (Diring culture) artefacts. The reliability of the OSL chronology was assessed by comparison of ages based on the optically stimulated luminescence from quartz and the infra-red stimulated luminescence from potassium-rich feldspars; these age pairs are in good agreement, implying that at least the quartz grains were sufficiently bleached before sedimentation. We obtained OSL ages that reflect three periods of accumulation between the LGM and the Holocene: ∼21 ka, 15-14 ka, and 12.5–10 ka. These periods of accumulation broadly coincide with global cooling episodes during the Last Glacial Maximum, the Older Dryas, and the Younger Dryas, with some extension into subsequent warmer intervals, whereas the intervening intervals without preserved sediments are taken to reflect dune stability during warmer periods. The sand on the terraces, sourced from alluvial bars in the river channel, was blown up the valley slope during cold and dry periods when the vegetation cover was sparse. When the climate warmed, the vegetation took some time to spread, and so the accumulation of aeolian sand on the high terraces continued into the warm periods. We also infer periods of deflation (wind erosion) that occurred before 21 ka and between 20 and 15 ka, presumably due to increased aeolian activity and localized remobilization of sediment. The new OSL chronology shows that the younger artefacts located at the cape of Diring Yuriakh, belonging to the Late Palaeolithic Duktai culture, are older than 15 ka. The new ages also show that the post-LGM aeolian sand sequences at Diring Yuriakh are correlated with the regionally developed subaerial Dolkuma Formation.

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为中雅库特(西伯利亚东北部)大地层后风化沉积和旧石器时代晚期测定年代
中雅库特是西伯利亚东北部的一个大地区,其特点是有大面积的永久冻土、大河谷、高山冰川和大面积的风化沙丘。近年来的研究表明,风化沙覆盖了雅库特中部 60% 的大片地区。本文介绍了位于勒拿河中游的 Diring Yuriakh 旧石器时代遗址风化沉积物的荧光测年结果。实地考察发现了几处厚厚的风化沙层,这些风化沙层覆盖在一个古老的放气面上,放气面上有晚期(杜克台文化)和早期(迪林文化)旧石器时代的文物。通过比较基于石英的光激发发光和富钾长石的红外激发发光的年代,对 OSL 年代学的可靠性进行了评估;这些年代对非常一致,这意味着至少石英颗粒在沉积之前已经充分漂白。我们获得的 OSL 年龄反映了 LGM 与全新世之间的三个堆积期:21 ka、15-14 ka 和 12.5-10 ka。这些堆积期与末次冰川极盛期、老干 旱期和少干 旱期的全球降温事件大致吻合,并在一定程度上延伸到随后的温暖时期,而没有保存沉积物的间隔期则反映了温暖时期的沙丘稳定性。阶地上的沙子来自河道中的冲积条石,在植被覆盖稀少的寒冷干旱时期被吹上谷坡。当气候变暖时,植被需要一些时间才能蔓延开来,因此高台地上的风积沙一直持续到温暖时期。我们还推断出 21 ka 年之前以及 20 ka 年至 15 ka 年之间出现的风蚀时期,这可能是由于风化活动增加和沉积物的局部再移动造成的。新的 OSL 年表显示,位于 Diring Yuriakh 海角的属于旧石器时代晚期 Duktai 文化的较年轻文物的年代早于 15 ka 年。新的年代学还表明,迪林尤里亚克的大地层后风化砂层与该地区发育的次地层多尔库马地层相关。
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来源期刊
Quaternary Geochronology
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.
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