Late Quaternary fluvial terrace formation in the Luan River drainage basin, north China and its possible linkages with climate change and tectonic activation

IF 4.6 3区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
China Geology Pub Date : 2023-07-01 DOI:10.31035/cg2022075
Yu-chen Tian , Xu-jiao Zhang , Zhi-qiang Yin , Hai Shao , Ming-xu Gu , Yingying -Ding , Chao Peng , Xiang-ge Zhang
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Abstract

The Luan River is the most important water system in north-eastern Hebei Province, China and is located in the transitional zone of the Eastern Yan Mountains, North China Plain and Songliao Plain. The well-developed river terraces of its tributary, the Yixun River, provide excellent information for studying neotectonics and climate change. There are seven terraces in the lower reaches of the Yixun River, numbered T7–T1. The optically stimulated luminescence dating results of 23 samples show that terraces T7–T2 formed at 111.36±5.83 ka, 78.20±4.45 ka, 65.29±4.15 ka, 56.44±3.07 ka, 40.08±2.66 ka, and 13.14±0.76 ka, respectively. A comparison with the oxygen isotope curves of deep-sea sediments reveals that the sediment formation of each terrace corresponded to cold periods of marine isotope stages MIS 4 and MIS 2 and the relatively cold periods of MIS 5e, MIS 3, and MIS 1. Since the Late Pleistocene, the incision rate of the Yixun River has ranged from 0.371–1.740 mm/a. During the formation of T7–T6, T5–T4, T4–T3, and T3–T2, the incision rate was low. However, in the two stages during which T6–T5 and T2–T1 formed (13.14±0.76 ka to 0.58±0.08 ka and 10.79±0.64 ka to 0.16±0.01 ka), these rates reached 1.554 mm/a and 1.592–1.740 mm/a, respectively. At approximately 30 ka, the activity of the Langying Fault increased, leading to footwall uplift. The river gathered in the north of Langying to form the ancient Erdaowan Lake, which resulted in the drying of the river in the lower reaches of the Yixun River during the last glacial maximum without forming river deposits. In the Early Holocene, headward erosion in the lower reaches of the Yixun River was enhanced, which resulted in the disappearance of the lake, and incised meandering formed due to increased neotectonism. Based on the analyses of river incision and the formation of ancient lakes and incised meandering, it was inferred that there have been three periods of strong tectonism in the river basin since the Late Pleistocene.

©2023 China Geology Editorial Office.

华北栾河流域晚第四纪河流阶地形成及其与气候变化和构造活动的可能联系
滦河是河北省东北部最重要的水系,位于东燕山、华北平原和松辽平原的过渡地带。伊逊河支流伊逊河发育良好的河流阶地为研究新构造和气候变化提供了极好的信息。伊逊河下游有七个阶地,编号为T7–T1。23个样品的光激发光测年结果表明,T7–T2阶地分别形成于111.36±5.83 ka、78.20±4.45 ka、65.29±4.15 ka、56.44±3.07 ka、40.08±2.66 ka和13.14±0.76 ka。与深海沉积物的氧同位素曲线的比较表明,每个阶地的沉积物形成对应于海洋同位素阶段MIS 4和MIS 2的寒冷期以及MIS 5e、MIS 3和MIS 1的相对寒冷期。晚更新世以来,伊逊河的切割速率为0.371~1.740 mm/a。在T7–T6、T5–T4、T4–T3和T3–T2的形成过程中,切口率较低。然而,在T6–T5和T2–T1形成的两个阶段(13.14±0.76 ka至0.58±0.08 ka和10.79±0.64 ka至0.16±0.01 ka),这些速率分别达到1.554 mm/a和1.592–1.740 mm/a。在大约30 ka处,郎营断层的活动增加,导致下盘隆起。河流在郎营以北汇集形成了古老的二道湾湖,导致伊逊河下游在末次冰川盛期河流干涸,没有形成河流沉积物。全新世早期,伊逊河下游的源头侵蚀加剧,导致湖泊消失,新构造运动加剧,形成下切曲流。通过对河流的切割、古湖泊的形成和切割曲流的分析,推断晚更新世以来,该流域经历了三个强烈的构造运动时期。©2023中国地质编辑部。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
China Geology
China Geology GEOLOGY-
CiteScore
7.80
自引率
11.10%
发文量
275
审稿时长
16 weeks
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