A quasi-continuous long-term (5 Ma) Mid-European mountain permafrost record based on fluvial magnetic susceptibility and its contribution to the explanation of Plio–Pleistocene glaciations

IF 2.4 3区地球科学 Q2 GEOGRAPHY, PHYSICAL

Boreas Pub Date : 2024-11-08 DOI:10.1111/bor.12678

Zoltán Püspöki, Gábor Markos, Tamás Fancsik, László Bereczki, László Ferenc Kiss, Edit Thamó-Bozsó, Zita Krassay, Péter Kovács, Richard W. McIntosh, Zoltán Vári, Ferenc Stercel, Zoltán Lantos, Vera Maigut, Katalin Sári, Miklós Rásonyi, Philip L. Gibbard

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Abstract

The low field magnetic susceptibility (χ_LF) measured in the 1116-m-long Dévaványa core (Pannonian Basin) is a quasi-continuous record of the Plio–Pleistocene Mid-European mountain permafrost development. The continuity of fluvial conditions is confirmed by seismic data, and the detrital origin of magnetite is indicated by frequency-dependent susceptibility measurements, scanning electron microscope, and hysteresis investigations. The χ_LF record is correlated to the δ¹⁸O curve (LR04) supported by palaeomagnetic data. The colour of samples documents precession and obliquity cycles in local facies variations, but the χ_LF indicates the dominance of 100-ka eccentricity cycles in the linked mountainous permafrost events. Comparison with orbital solutions revealed that the long-term development of permafrost occurs as a result of amplitude modulation of the 100-ka eccentricity cycles. Increases in amplitude of the 100-ka cycles inhibits permafrost development due to shortened winters. Thus, if extremes are present, the permafrost regions are limited or disappear, but if the 100-ka eccentricity cycles are attenuated, permanent frost can extend into the temperate zone. This amplitude modulation may also be responsible for the early glaciations during the Pliocene, for the intensification of Northern Hemisphere glaciation, foreshadows cooling in the forthcoming 405-ka term, and allows the change from 41-ka cycles to 100-ka ones in the Mid-Pleistocene Transition to be explained. The 41-ka cycles are the result of obliquity-controlled changes close to the polar cycles, while 100-ka cycles occur when the amplitude attenuation of the 100-ka eccentricity cycles enables extended glaciations that suppress the regular 41-ka cycles. Higher mountains in the catchments enable higher resolution of permafrost records documenting even smaller glaciations. However, the similarities in the overall trends in χ_LF records of catchment areas with 1500-m difference in their altitude is a potential counter-argument when considering the role of tectonic elevations in the expansions of mountainous permafrost.

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基于河流磁化率的中欧山地永久冻土层准连续长期（5 Ma）记录及其对上新世-更新世冰川作用的解释

在1116 m长的Dévaványa（潘诺尼亚盆地）岩心中测量的低磁场磁化率（χLF）是上新世—更新世中欧山地永久冻土层发育的准连续记录。地震资料证实了河流条件的连续性，并通过频率相关磁化率测量、扫描电镜和磁滞研究表明了磁铁矿的碎屑来源。χLF记录与古地磁资料支持的δ18O曲线（LR04）相关。样品的颜色反映了局部相变化的进动旋回和倾角旋回，但χLF表明在相关的山地多年冻土事件中，100-ka偏心旋回占主导地位。与轨道解的比较表明，多年冻土的长期发展是100 ka偏心率周期振幅调制的结果。由于冬季缩短，100 ka旋回振幅的增加抑制了永久冻土的发展。因此，如果出现极端情况，永久冻土区就会受到限制或消失，但如果100 ka的偏心周期减弱，永久霜冻就会延伸到温带。这种调幅也可能是上新世早期冰川作用的原因，北半球冰川作用的增强，预示着即将到来的405-ka期的降温，并允许解释中更新世过渡期从41-ka旋回到100-ka旋回的变化。41-ka旋回是接近极旋回的倾角控制变化的结果，而100-ka旋回发生时，100-ka偏心率旋回的振幅衰减使得延长的冰川作用抑制了规则的41-ka旋回。集水区较高的山脉使得永久冻土记录的分辨率更高，记录的冰川甚至更小。然而，在海拔差异为1500 m的集水区，χLF记录总体趋势的相似性，在考虑构造海拔在山地多年冻土扩张中的作用时，可能是一个相反的论点。

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来源期刊

Boreas 地学-地球科学综合

CiteScore

5.90

自引率

4.50%

发文量

审稿时长

>12 weeks

期刊介绍： Boreas has been published since 1972. Articles of wide international interest from all branches of Quaternary research are published. Biological as well as non-biological aspects of the Quaternary environment, in both glaciated and non-glaciated areas, are dealt with: Climate, shore displacement, glacial features, landforms, sediments, organisms and their habitat, and stratigraphical and chronological relationships. Anticipated international interest, at least within a continent or a considerable part of it, is a main criterion for the acceptance of papers. Besides articles, short items like discussion contributions and book reviews are published.