Impact of the Yellow River capture on the paleoenvironmental changes of Hongze Lake, China

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-08-01 DOI:10.1016/j.ijsrc.2023.02.002
Hongwu Tang , Ming Gao , Saiyu Yuan , Huiming Zhang , Yang Xiao , Fuxin Zhang , Kun Zhang
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引用次数: 2

Abstract

The Yellow River (YR) capture of the Huai River had a profound effect on the landscape evolution, ecology, and social development in China, disrupting the evolution of some vital shallow floodplain lakes. Because of the absence of lacustrine sediment provenance analysis, previous studies were inadequate in distinguishing the influence of YR capture on paleoenvironmental changes in these lakes, especially on landscape evolution, redox conditions, lake level changes, and organic productivity. The current study aims to use X-ray fluorescence-core scanning (XRF-CS) and multivariate statistics on a 9.8 m sediment core from Hongze Lake (HZL), China, to analyze the impact of the YR capture on the lake's paleoenvironmental changes and the sediment provenance simultaneously. High-resolution images, magnetic susceptibility, and XRF-based multi-element data were obtained using a GEOTEK Multi-Sensor Core Logger. The calcium (Ca) content indicates the presence of YR sediment in HZL, given the high Ca content in YR sediment and the identification of mainly exogenous sources of Ca in HZL. The high values of Ca indicate that 48.7% of the sediment in the center of HZL is related to the YR's incursion. Periods of higher Ca content coincide with periods of higher oxygenation levels of the lake (as indicated by the ratio of manganese to titanium) and lower organic content in the lake sediment (as indicated by the ratio of incoherent to coherent scatter). These analyses reveal that the YR's capture of HZL significantly increased the lake's oxygen level. Furthermore, the decrease in the organic content of sediment tends to be the result of the accelerated deposition caused by the YR. The decrease in Ca content coincides with an increase in lake levels (as indicated by magnetic susceptibility). Thus, it can be inferred that the embankment on the eastern side of HZL, built to increase lake storage, has reduced the incursion frequency of the YR.

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黄河围捕对洪泽湖古环境变化的影响
黄河截流淮河对中国的景观演变、生态和社会发展产生了深远的影响,扰乱了一些重要的浅水漫滩湖泊的演变。由于缺乏对湖泊沉积物物源的分析,以往的研究不足以区分YR捕获对这些湖泊古环境变化的影响,特别是对景观演化、氧化还原条件、湖泊水位变化和有机生产力的影响。利用x射线荧光岩心扫描(XRF-CS)和多元统计技术,对洪泽湖9.8 m沉积物岩心进行分析,同时分析YR捕获对洪泽湖古环境变化和沉积物物源的影响。使用GEOTEK多传感器核心记录仪获得高分辨率图像、磁化率和基于xrf的多元素数据。考虑到YR沉积物中Ca含量较高,以及确定了HZL中Ca的主要外源,钙(Ca)含量表明HZL中存在YR沉积物。高Ca值表明HZL中心48.7%的沉积物与YR的入侵有关。钙含量较高的时期与湖泊氧合水平较高的时期(如锰与钛的比率所示)和湖泊沉积物中有机含量较低的时期(如非相干散射与相干散射的比率所示)相吻合。这些分析表明,YR对HZL的捕获显著增加了湖泊的氧含量。此外,沉积物有机质含量的下降倾向于由YR引起的加速沉积的结果。Ca含量的下降与湖泊水位的增加一致(由磁化率表明)。由此可以推断,在HZL东侧为增加湖泊蓄水量而修建的堤防,降低了YR的入侵频率。
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7.20
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4.30%
发文量
567
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