从宇宙核素基岩深度剖面推断冰盖埋藏和侵蚀:对芬诺斯坎迪亚东北部冰川历史的影响

IF 3.2 1区 地球科学 Q1 GEOGRAPHY, PHYSICAL
Jane L. Andersen , Mads F. Knudsen , A.P. Stroeven , Jesper Olsen , Vivi K. Pedersen
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引用次数: 0

摘要

在这项研究中,我们评估了基岩中浅(2.5 米)宇宙成因深度剖面在制约长期冰葬和侵蚀历史方面的应用。利用马尔科夫链蒙特卡洛反演模型对一系列合成情景进行反演,我们证明宇宙成因10Be和26Al剖面比单纯的地表样本对冰葬持续时间和侵蚀历史提供了更有力的约束,特别是当侵蚀速率较低(5-10 m Myr-1)和/或非稳定时。我们将这种方法应用于瑞典东北部 Parkajoki 地区两个火山口的 10Be 和 26Al 测量的新深度剖面。我们的结果表明,自 500 ka 年以来,侵蚀深度为 2-10 m,冰埋藏时间为 20-35% 。这些估算结果表明,与之前根据同一山丘推断的结果相比,侵蚀作用更强,冰埋作用更弱。然而,通过根据现有记录重新评估魏希塞尔期的冰覆盖范围,我们发现一些宇宙成因核素的继承早于倒数第二个冰川最盛期(萨alian晚期),这意味着在上一个冰川周期,帕卡约基地区的冰川侵蚀是有限的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ice-sheet burial and erosion inferred from cosmogenic nuclide bedrock depth profiles: Implications for the glaciation history of northeastern Fennoscandia
In this study, we evaluate the application of shallow (<2.5 m) cosmogenic depth profiles in bedrock to constrain long-term ice-burial and erosion histories. Using Markov Chain Monte Carlo inversion modelling on a series of synthetic scenarios, we demonstrate that cosmogenic 10Be and 26Al profiles provide more robust constraints on ice-burial duration and erosion histories than surface samples alone, particularly when erosion rates are low (<5–10 m Myr−1) and/or non-steady. We apply this method to new depth profiles of 10Be and 26Al measurements from two tors in the Parkajoki region in northeastern Sweden. Our results indicate erosion depths of ∼2–10 m and ice burial for ∼20–35% of the time since 500 ka. These estimates imply more erosion and less ice burial than previously inferred from the same tors. However, by re-assessing the extent of ice cover during the Weichselian from existing records, we show that some cosmogenic nuclide inheritance predates the penultimate glacial maximum (Late Saalian), implying limited glacial erosion in the Parkajoki region during the last glacial cycle.
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来源期刊
Quaternary Science Reviews
Quaternary Science Reviews 地学-地球科学综合
CiteScore
7.50
自引率
15.00%
发文量
388
审稿时长
3 months
期刊介绍: Quaternary Science Reviews caters for all aspects of Quaternary science, and includes, for example, geology, geomorphology, geography, archaeology, soil science, palaeobotany, palaeontology, palaeoclimatology and the full range of applicable dating methods. The dividing line between what constitutes the review paper and one which contains new original data is not easy to establish, so QSR also publishes papers with new data especially if these perform a review function. All the Quaternary sciences are changing rapidly and subject to re-evaluation as the pace of discovery quickens; thus the diverse but comprehensive role of Quaternary Science Reviews keeps readers abreast of the wider issues relating to new developments in the field.
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