In search of a stratigraphic subdivision of the period 8-0 ka in Greenland ice cores

IF 0.9 4区 地球科学 Q4 ECOLOGY Polish Polar Research Pub Date : 2023-11-06 DOI:10.24425/PPR.2019.128367
M. D. Jong, A. Seijmonsbergen, L. D. Graaff
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引用次数: 3

Abstract

The δ18O data for the last 8000 years in the Greenland NGRIP1, GRIP, DYE-3 and GISP2 ice cores have been analyzed stratigraphically in search of potentially meaningful boundaries and units. Pattern matching of the profiles is supported by using graphical display enhancements, calculating spectral trend curves and generating a compound profile. Techniques routinely used in subsurface geology have been applied in correlating the profiles. Four major stratigraphic units are identified (8.1–4.9, 4.9–3.3, 3.3–1.9 and 1.9–0.1 ka b2k), resulting in an improved understanding of the climate change after the Holocene Climate Optimum. Correlatable higher-order boundaries are identified within these units. The layers between the boundaries show δ18O patterns which generally are similar in character, the differences being ascribed to lateral variations in the factors that control the isotope content of the ice. The layering forms a series of short-lived low-amplitude aperiodic oscillations on a centennial time scale. The suggestion is that these higher-order boundaries and δ18O oscillations have climatic significance. Equivalent units are tentatively identified in ice-core data from the Agassiz and Renland ice caps. Comparison with other climate proxies or stratigraphies from the Northern Hemisphere is expected to render support for the here proposed scheme. It will then serve to guide and constrain the analysis of the dynamics of the climatic fluctuations for the study period.
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在格陵兰冰芯中寻找8-0 ka时期的地层细分
本文对格陵兰岛NGRIP1、GRIP、DYE-3和GISP2冰芯近8000年的δ18O数据进行了地层学分析,以寻找可能有意义的边界和单位。利用图形显示增强、计算光谱趋势曲线和生成复合剖面来支持剖面的模式匹配。地下地质中常用的技术已应用于剖面对比。确定了4个主要地层单元(8.1-4.9、4.9-3.3、3.3-1.9和1.9-0.1 ka b2k),从而提高了对全新世气候最佳期后气候变化的认识。在这些单元中确定相关的高阶边界。边界之间的层显示的δ18O模式在性质上大体相似,这种差异归因于控制冰同位素含量的因素的横向变化。分层形成了一系列在百年时间尺度上的短时间低振幅非周期振荡。这表明这些高阶边界和δ18O振荡具有气候意义。在阿加西和伦兰冰盖的冰芯数据中初步确定了等效单位。与北半球其他气候代用物或地层学的比较预计将支持本文提出的方案。然后,它将用于指导和限制对研究期间气候波动动态的分析。
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来源期刊
Polish Polar Research
Polish Polar Research ECOLOGY-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
2.00
自引率
7.70%
发文量
0
审稿时长
>12 weeks
期刊介绍: The quarterly Polish Polar Research edited by the Committee on Polar Research of the Polish Academy of Sciences is an international journal publishing original research articles presenting the results of studies carried out in polar regions. All papers are peer-reviewed and published in English. The Editorial Advisory Board includes renowned scientist from Poland and from abroad.
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