A 2600-year high-resolution climate record from Lake Trichonida (SW Greece)

EG Quaternary Science Journal Pub Date : 2020-10-08 DOI:10.5194/egqsj-69-139-2020

J. Seguin, P. Avramidis, W. Dörfler, A. Emmanouilidis, I. Unkel

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引用次数: 8

Abstract

Abstract. This paper aims at reconstructing the palaeoclimatic changes during the last 2600 years in southern Greece based on a proxy record from Lake Trichonida. For the first time, we provide a reliable age-depth model and continuous geochemical data for the largest and deepest lake in Greece. We use X-ray fluorescence (XRF) geochemical data supported by discrete mineral analysis based on X-ray diffraction (XRD), grain size distribution, and organic matter content to investigate changes in the lake sedimentary system and identify the major forcing mechanisms. A principal component analysis based on the XRF geochemical composition identifies the variation between carbonate-rich material, precipitating predominantly under drier and/or warmer conditions, and terrigenous sediment input, with it being more prominent during wetter and/or colder conditions. The first principal component (PC1) shows a very strong correlation with the weathering proxy log (Rb∕Sr) , and we interpret both proxies as depicting fluctuations in the hydrological conditions. A cluster analysis, conducted on the continuous geochemical and colour parameters, highlights the similarities in the sediment characteristics deposited during wetter phases, notably during 1850–1750, 1500–1400, ca. 1100, and ca. 100 cal BP. When comparing the PC1 Trichonida record to independent records from the Balkans, we find generally concurring patterns on a multi-decadal to centennial scale. We show that phases with wetter conditions at Lake Trichonida coincide with a more negative North Atlantic Oscillation (NAO) index, suggesting that the precipitation variability in southern Greece is linked to changes in the NAO atmospheric pattern, as one major driving force. The 2600-year-long sedimentary record of Lake Trichonida contributes to a better understanding of Late Holocene palaeohydrological changes in an important climatic transitional zone in the eastern Mediterranean.

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希腊西南部特里霍尼达湖2600年的高分辨率气候记录

摘要本文利用特里霍尼达湖的代用记录重建了希腊南部近2600年的古气候变化。我们首次为希腊最大最深的湖泊提供了可靠的年龄深度模型和连续的地球化学数据。利用x射线荧光(XRF)地球化学数据，结合基于x射线衍射(XRD)的离散矿物分析、粒度分布和有机质含量，研究了湖泊沉积体系的变化，并确定了主要的强迫机制。基于XRF地球化学成分的主成分分析确定了富含碳酸盐的物质(主要在干燥和/或温暖的条件下沉淀)与陆源沉积物输入之间的差异，在潮湿和/或寒冷的条件下更为突出。第一主成分(PC1)与风化代理测井(Rb / Sr)有很强的相关性，我们将这两个代理解释为描述水文条件的波动。对连续的地球化学和颜色参数进行聚类分析，突出了湿相沉积特征的相似性，特别是在1850-1750年，1500-1400年，大约1100年和大约100 cal BP。当将PC1 Trichonida记录与巴尔干半岛的独立记录进行比较时，我们发现在几十年至100年的尺度上普遍存在一致的模式。我们发现，etrichonida湖的湿润阶段与北大西洋涛动(NAO)指数的负值相吻合，这表明希腊南部的降水变率与NAO大气模式的变化有关，这是一个主要的驱动力。Trichonida湖2600年的沉积记录有助于更好地理解地中海东部一个重要气候过渡带的晚全新世古水文变化。

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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EG Quaternary Science Journal

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