Lithological features of Lake Bannoe sediments (Southern Urals) as an indicator of environmental and climate changes in the Holocene

LITHOSPHERE (Russia) Pub Date : 2024-03-06 DOI:10.24930/1681-9004-2024-24-1-173-194

A. R. Yusupova, N. G. Nurgalieva, D. M. Kuzina, A. M. Rogov, G. R. Nigamatzyanova

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Abstract

Research subject. Bottom sediments of Lake Bannoe (Southern Urals). Aim. Identification of lithologic features of Lake Bannoe sediments, which could reflect sedimentation conditions in the Holocene. Materials and methods. The detailed complex analysis included radiocarbon dating, grain-size analysis, X-ray diffraction analysis, electron microscopy, X-ray fluorescence and isotope analysis, coercive spectrometry and pollen analysis. Results. Radiocarbon dating showed that sedimentation in Lake Bannoe began no later than ~13 thousand years ago. Combination of data from various laboratory studies unraveled four lithological zones and the corresponding stages in the sedimentation history. The grain size, allothigenic particles, carbonate minerals, organic matter and isotopic composition of carbon and oxygen are the most informative indicators. Grain size variations and the ratio between allothigenic and carbonate components reflect changes in the Lake’s depth and clastic material supply, which, in turn, is associated with humidity. Organic matter parameters (TOC, δ13Corg, C/N ratio) can be considered as indicators of climate-sensitive changes in bioproductivity of the sedimentation basin. They also reflect the ratio of exogenous and endogenous organic matter in the sedimentary environment. The isotopic composition of carbon and oxygen (δ13Ccarb, δ18Ocarb) in sedimentary carbonates is an informative indicator of lithological zones and climatic events of the Holocene due to its sensitivity to changes in biomass, temperature fluctuations, and fresh water inflow. The paramagnetic component k_para was used as an indicator of the allothigenic material input into the lake basin for the first time in this region. Conclusions. The granulometric, mineral, and chemical composition, as well as the magnetic properties of Lake Bannoe sediments reflect the history of Lake sedimentation in the Southern Urals, which agrees mainly with the climate stages of the Holocene.

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作为全新世环境和气候变化指标的班诺湖沉积物（南乌拉尔）的岩石学特征

研究课题。班诺湖（南乌拉尔）湖底沉积物。目的。确定班诺湖沉积物的岩性特征，以反映全新世的沉积条件。材料和方法。详细的综合分析包括放射性碳年代测定、粒度分析、X 射线衍射分析、电子显微镜、X 射线荧光和同位素分析、胁迫光谱法和花粉分析。结果显示放射性碳测年结果表明，Bannoe 湖的沉积始于距今约 1.3 万年前。结合各种实验室研究的数据，揭示了四个岩性区和相应的沉积历史阶段。粒度、全碳酸盐颗粒、碳酸盐矿物、有机质以及碳和氧的同位素组成是最有参考价值的指标。晶粒大小的变化以及全碳酸盐和碳酸盐成分之间的比例反映了湖泊深度和碎屑物质供应的变化，而这又与湿度有关。有机质参数（总有机碳、δ13Corg、碳/氮比）可被视为沉积盆地生物生产率对气候敏感变化的指标。它们还反映了沉积环境中外源有机物和内源有机物的比例。沉积碳酸盐中碳和氧的同位素组成（δ13Ccarb、δ18Ocarb）是全新世岩性区和气候事件的信息指标，因为它对生物量变化、温度波动和淡水流入非常敏感。顺磁成分 k_para 在该地区首次被用作湖盆异源物质输入的指标。结论班诺湖沉积物的粒度、矿物和化学成分以及磁性能反映了南乌拉尔地区湖泊沉积的历史，这主要与全新世的气候阶段相吻合。

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LITHOSPHERE (Russia)

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