Holocene paleoenvironment of the Nihewan Basin, China, inferred from high-resolution luminescence dating and a multiproxy analysis of gully sediments

As a pivotal region for studying early human occupation in East Asia, the Nihewan Basin has witnessed numerous studies on Paleolithic sites and associated paleoenvironmental records. However, little attention has been given to the Holocene period, despite the basin being a crossroads for the exchang...

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Published in:Palaeogeography, palaeoclimatology, palaeoecology palaeoclimatology, palaeoecology, 2024-12, Vol.655, p.112533, Article 112533
Main Authors: Ma, Qing-Hao, Guo, Yu-Jie, Lei, Hua-Rui, Shen, Yu-He, Wang, Jia-Jing, Liu, Ya, Zhou, Zhen-Yu, Zhang, Jia-Fu
Format: Article
Language:English
Subjects:
basins
Bayesian theory
China
climate
cold
color
evolution
Gully sediments
Holocene
Holocene epoch
humans
luminescence
Luminescence dating
magnetic susceptibility
Nihewan Basin
occupations
palaeogeography
paleoclimatology
paleoecology
Paleoenvironment
pollen
sediments
soil
soil formation
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Summary:As a pivotal region for studying early human occupation in East Asia, the Nihewan Basin has witnessed numerous studies on Paleolithic sites and associated paleoenvironmental records. However, little attention has been given to the Holocene period, despite the basin being a crossroads for the exchange of NE China Neolithic cultures. In the central part of the Nihewan Basin, we found a gully sediment section with a thickness of ∼9 m, which exhibits clear parallel bedding throughout. The section is composed of ten sediment layers (Layers 10–1 from bottom to top), from which three distinct dark-colored soil layers (Layers 8, 4 and 2) and two erosion surfaces (between Layers 10 and 9, and Layers 2 and 1) were identified. Forty-four sediment samples from the section were optically dated, and the obtained ages were refined using Bayesian statistical modeling. The age-depth relationship and sedimentary characteristics suggest that the sedimentation process of Layers 9–2 was continuous. To reconstruct the paleoenvironment, the grain-size distribution, magnetic susceptibility, and pollen content of the sediments were analyzed. The three soil layers exhibit high magnetic susceptibility values. Based on these climatic proxies, five climate stages were recognized. From ∼12.7 to ∼6.8 ka, the climate in the basin region was cold and dry. The period between ∼6.8 and ∼5.4 ka was marked by optimal climate conditions that led to soil formation. Subsequently, the climate was colder and drier during the period of ∼5.4 – ∼4.0 ka, and transitioned to warm and wet conditions again from ∼4.0 to ∼2.7 ka. Another stage of soil formation occurred between ∼2.7 and ∼1.7 ka, during which the climate was predominantly warm and humid, albeit punctuated by a brief interval of colder and drier conditions. These climate variations coincided with cultural evolution stages within the basin, highlighting a close relationship between environmental change and human adaptation. •A gully sediment section with parallel bedding and distinct soil layers in the Nihewan Basin is found.•High-resolution optical dating and multi-proxy analysis are conducted.•Holocene climate changes in the Nihewan Basin region are reconstructed.•A close relationship between cultural evolution and past climate change in the basin is demonstrated.
ISSN:0031-0182
DOI:10.1016/j.palaeo.2024.112533