Late Glacial palaeoenvironmental changes in the southern part of the Holy Cross Mountains based on the “Białe Ługi” peatland record

IF 0.6 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Studia Quaternaria Pub Date : 2019-01-01 DOI:10.24425/SQ.2019.126384

D. Okupny, M. Malkiewicz, D. Pawłowski, M. Ludwikowska-Kędzia, R. Borówka, J. Forysiak, A. Michczyński, Witold Jucha, Piotr Cybul, S. Żurek

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引用次数: 2

Abstract

This paper presents the Late Glacial stage of the development of the Białe Ługi peatland in the southern Holy Cross Mountains, based on a comprehensive palaeoenvironmental data. A complex analysis of palynology, Cladocera, sedimentology, geochemistry and 14C dating were used. Organic deposition was initiated during the Oldest Dryas. The sedimentary record of the aquatic and terrestrial ecosystems reflects considerable difference between cooler (Oldest, Older and Younger Dryas) and warmer phases (Bølling and Allerød). Periods of intensified interaction between aeolian processes and peatland are related to stages of disappearing vegetation and changes in aquatic invertebrate communities. We therefore suggest that peatlands were created as a result of local lithological-structural, tectonic, hydrogeological and morphological conditions, and the peatland development rate was largely influenced by changing climatic conditions, which determined local vegetation development, intensity of denudation processes and water level changes. The results validate significance of selection and use of several methods, as well as value of biogenic deposits from the Białe Ługi peatland as archives of past climate change in the Małopolska Upland. Relatively stable water conditions and uninterrupted biogenic sedimentation in the Late Glacial that were provided by the geological structure and relief suggest the studied peatland is a leading one in the region.

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基于“Białe Ługi”泥炭地记录的圣十字山南部晚冰期古环境变化

本文在综合古环境资料的基础上，提出了圣十字山南部Białe Ługi泥炭地发育的晚冰期。采用孢粉学、枝角学、沉积学、地球化学和14C测年等综合分析方法。有机沉积是在最古老的仙女木时期开始的。水生和陆地生态系统的沉积记录反映了较冷阶段(最老、较老和较新仙女木期)和较暖阶段(Bølling期和Allerød期)的显著差异。风成过程与泥炭地相互作用加剧的时期与植被消失的阶段和水生无脊椎动物群落的变化有关。因此，泥炭地的形成是当地的岩性构造、构造、水文地质和形态条件共同作用的结果，而泥炭地的发育速度在很大程度上受气候条件变化的影响，气候条件的变化决定了当地植被的发育、剥蚀过程的强度和水位的变化。结果验证了几种方法的选择和使用的意义，以及Białe Ługi泥炭地生物沉积物作为Małopolska高地过去气候变化档案的价值。地质构造和地形为该区提供了相对稳定的水条件和晚冰期不间断的生物沉积，表明该区泥炭地是该区领先的泥炭地。

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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来源期刊

Studia Quaternaria GEOSCIENCES, MULTIDISCIPLINARY-

CiteScore

1.40

自引率

0.00%

发文量

期刊介绍： Studia Quaternaria is designed to publish scientific works concerning the Quaternary, on local, regional and global scale. Studia Quaternaria is interested in all fields of research dealing with stratigraphy and reconstruction of the past environments, including palaeogeography, palaeoecology, palaeoclimatology, palaeohydrology etc. The journal is also open to studies of natural environmental processes, and to recognition of mechanisms involved in the dynamics of our environment. The clue is that the Quaternary is still ongoing and vivid, and understanding of its past and present development support each other.