挪威南部中东部福尔达尔全新世早期出现的黄土:识别、起源和古气候意义

Svein Olaf Dahl, Pål Ringkjøb Nielsen
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摘要

在挪威首次发现,挪威南部中东部福尔达尔的黄褐色风吹尘埃符合严格意义上的黄土的物理和地球化学标准,包括碳酸盐含量高。对位于低碳酸盐岩上的两个现存泥灰岩池和一个遗存泥灰岩池进行了调查。提出了泥灰岩池的同源来源,并解释了悬浮碎屑碳酸盐在风化过程中沉积为黄土的原因。黄土的分散地理分布以及对钙质来源区的需求表明,黄土的来源地为上格里姆斯达伦的西-西向河谷沙土/现有洪泛平原。风化淤泥的平均粒度(约 22.4 微米)处于平均黄土的较细范围,这是因为从建议的源区到泥灰岩池塘需要长达 25-30 公里的运输和约 250-300 米的空中上坡移动。根据使用 9 个 AMS 放射性碳日期建立的年龄深度模型,黄土沉积期约为公元前 10,390 年至公元前 9780 年(610 年)。约公元前 10,390 年至 10,190 年(200 年)和约公元前 10,020 年至 9950 年(70 年)是黄土堆积的两个重要时期。黄土沉积是干燥至半干旱气候中冬季西-西南风的结果。在挪威南部,冬季的西-西南风与北大西洋涛动(NAO)的正向模式有关。从源头到沉积,黄土的侵蚀、迁移和堆积的反应时间被认为是季节性的到一年不等。黄土沉积后,有机物产量立即增加,这是全新世较暖较湿最佳气候的早期开始。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Early Holocene occurrence of loess in Folldal, east-central southern Norway: Identification, origin and palaeoclimatic significance
Identified for the first time in Norway, windblown yellowish-brown dust in Folldal, east-central southern Norway, fulfils physical and geochemical criteria for sensu stricto loess, including a high carbonate content. Two extant and one relict marl pond located on low-carbonate rocks are investigated. An allochthonous origin for the marl ponds is suggested and explained by the deposition of suspended clastic carbonate as loess by aeolian processes. The scattered geographical distribution of loess and the need for a calcareous source area suggest a W-SW provenance from a relict valley sandur/existing flood plain in upper Grimsdalen. The mean grain size (~22.4 µm) of the aeolian silt is in the finer range of average loess, explained by the up to 25–30 km long transport and approximately 250–300 m airborne uphill move from the suggested source area to the marl ponds. Based on age-depth modelling using 9 AMS radiocarbon dates, loess deposition occurred from ca. 10,390 to 9780 cal. yr BP (610 years). Two prominent periods of loess accumulation occurred from ca. 10,390 to 10,190 (200 years) and ca. 10,020–9950 (70 years) cal. yr BP. Loess deposition results from W-SW wintertime winds in a dry to semi-arid climate. In southern Norway, W-SW winds in winter are associated with a positive mode of the North Atlantic Oscillation (NAO). From source to deposition, the response time to erode, transport and accumulate loess is suggested to be seasonal to 1 year. An immediate increase in organic production followed loess deposition as early initiation of a warmer and wetter Holocene climatic optimum.
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