Changing natural conditions and their impact on the Mt. Śnieżnica landscape, Outer Western Carpathians : reconstruction of the Holocene environment based on geochemical indices and radiocarbon dating

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Environmental changes during the Holocene impacted the development of all civilizations, and it is important to understand the power of this influence through, for instance, the reconstruction of these changes. However, when the climate and environmental conditions of the deep past are analyzed, researchers need to rely on various types of proxy data that are only approximations of the required information. In addition, this type of information is often absent or has several gaps (hiatuses). In the present study, we analyzed a 4.4-m deep core excavated from the fen formed within the landslide body on the northern side of Mt. Śnieżnica in the Wyspowy Beskidy Mountains, the Outer Western Carpathians, southern Poland. In total, we analyzed 405 samples in terms of 29 geochemical components (e.g., nitrogen (N), carbon (C), sulfur (S), and the total organic carbon (TOC)) and physical properties, namely particle-size distribution, loss on ignition (LOI), and microcharcoal content. Additionally, to establish geochronology, we dated 27 samples of different biological materials using the Accelerator Mass Spectrometry radiocarbon method. A detailed examination of plant macrodetritus and wood anatomy supported our interpretation based on the geochemical data. The Mt. Śnieżnica landslide probably formed ca. 14,000 cal BP in the first phase of the Allerød Interstadial. For almost 9000 years, there were no appropriate terrain conditions for the long-term accumulation of organo-mineral materials. At ca. 4400 cal BP, peat accumulation commenced. The beginning of peat accumulation correlates with the global 4.2 Bond event of cold climate conditions. After another ca. 2000 years, the core sediments were dominated by limnetic mud, suggesting aquatic conditions in the landslide depression. This sudden shift in the characteristics of sedimentation is loosely linked to the boundary between the Subboreal and Subatlantic phases (ca. 2500 cal BP). The apparent dichotomy of the depositional record agrees with the reconstructed climatic conditions during the second part of the Holocene. Up to 3000 cal BP, the regional climate was warm and humid, which allowed fast biomass production and hillslope stabilization by trees. Forest fires occurred only at the beginning and end of this period (4400–3000 cal BP). After 3000 cal BP, the regional climate became cool and dry. In this period, we found evidence of intensified erosion, but it was unrelated to forest fire activity.

Tytuł
Changing natural conditions and their impact on the Mt. Śnieżnica landscape, Outer Western Carpathians : reconstruction of the Holocene environment based on geochemical indices and radiocarbon dating
Twórca
Pawlik Łukasz
Słowa kluczowe
landslide; organic deposits; geochemistry; paleoclimate; radiocarbon; Carpathians
Słowa kluczowe
osuwisko; osady organiczne; geochemia; paleoklimat; datowanie radiowęglowe; Karpaty
Współtwórca
Okupny Daniel ORCID 0000-0002-8836-6044
Kroh Paweł
Cybul Piotr
Stachowicz-Rybka Renata
Sady-Bugajska Agata
Data
2022
Typ zasobu
artykuł
Identyfikator zasobu
DOI 10.1016/j.scitotenv.2022.158066
Źródło
Science of The Total Environment, 2022, vol. 850, [br. s.], 158066
Język
angielski
Prawa autorskie
CC BY-NC-ND CC BY-NC-ND
Dyscyplina naukowa
Nauki o Ziemi i środowisku; Dziedzina nauk ścisłych i przyrodniczych
Kategorie
Publikacje pracowników US
Data udostępnienia26 sty 2023, 14:59:44
Data mod.26 sty 2023, 14:59:44
DostępPubliczny
Aktywnych wyświetleń0