Multi-level Domica–Baradla cave system (Slovakia, Hungary): Middle Pliocene–Pleistocene evolution and implications for the denudation chronology of the Western Carpathians

Multi-level Domica–Baradla cave system (Slovakia, Hungary): Middle Pliocene–Pleistocene evolution and implications for the denudation chronology of the Western Carpathians

The trans-boundary Slovak-Hungarian Domica–Baradla cave system (Slovak and Aggtelek karsts), >26 km in length, consists of evolution levels that have been formed in relation to the incision phases of the Jósva Valley. Existing opinions on the age of the well-known cave system have not been based...

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Veröffentlicht in:Geomorphology (Amsterdam, Netherlands) Netherlands), 2019-02, Vol.327, p.62-79
Hauptverfasser: Bella, Pavel, Bosák, Pavel, Braucher, Régis, Pruner, Petr, Hercman, Helena, Minár, Jozef, Veselský, Michal, Holec, Juraj, Léanni, Laëtitia
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Aggtelek Karst
Cave level
Continental interfaces, environment
Cosmogenic nuclide dating
Earth Sciences
Environmental Sciences
Geomorphology
Global Changes
Paleomagnetism
Pediment
Sciences of the Universe
Slovak Karst
Tectonics
U-series dating
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container_title Geomorphology (Amsterdam, Netherlands)
container_volume 327
creator Bella, Pavel
Bosák, Pavel
Braucher, Régis
Pruner, Petr
Hercman, Helena
Minár, Jozef
Veselský, Michal
Holec, Juraj
Léanni, Laëtitia
description The trans-boundary Slovak-Hungarian Domica–Baradla cave system (Slovak and Aggtelek karsts), >26 km in length, consists of evolution levels that have been formed in relation to the incision phases of the Jósva Valley. Existing opinions on the age of the well-known cave system have not been based on the dating of cave sediments deposited during older evolution phases. Previous U-series dating and the first paleomagnetic analyses of dripstones, flowstones and fine-grained allochthonous sediments identified only younger accumulative phases of the cave evolution in Late Pleistocene. Our cosmogenic nuclide dating (10Be and 26Al) of allochthonous fluvial gravels from the upper and lower levels of the Domica Cave (Slovakia) reveal much older evolution phases. Two burial ages at 3.47 ± 0.78 Ma and 2.94 ± 0.50 Ma show that the upper level of the cave system originated in, or before, the Middle Pliocene. Its younger accumulation phases (Early–Middle Pleistocene) are documented based on magnetostratigraphy and U-series dating of fine-grained sediments and flowstones. The Brunhes/Matuyama boundary (780 ka), Kamikatsura excursion (~900 ka), Santa Rosa excursion (~932 ka) and Jaramillo magnetozone (~1.001–1.069 Ma) were identified from the newly studied profile in the Suchá chodba Passage (the ages of flowstones in upper part of this profile are ~130 ka, 173 ka and 199 ka). In some places, several small older (paleokarst?) solutional phreatic cavities are cut by this cave level. The lower evolution level, located 12–18 m below the upper level, originated in the Early Pleistocene (the burial age of allochthonous fluvial gravels is 1.92 ± 0.25 Ma). Low pre-burial denudation rates (3.1–5.6 m/Ma) correspond with the slowdown or interruption of tectonic uplift of the area and the long-term stabilized erosion base level during the formation of these cave levels. Their origin was linked with the formation of large pediments, of which remnants are preserved on both sides of the Jósva Valley (Hungary). The pediments probably correlate to the ‘foothill’ (Middle Pliocene) and ‘river-side’ (Late Pliocene–Early Pleistocene) levels in the denudation chronology of the Western Carpathians. •Fluvially-modelled cave levels developed in relation to the formation of large pediments.•Combined use of absolute dating methods for the reconstruction of cave chronology.•The largest cave levels in the marginal part of the Western Carpathians formed in the Middle Pliocene and Early Pleistocene.•Pa
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The Brunhes/Matuyama boundary (780 ka), Kamikatsura excursion (~900 ka), Santa Rosa excursion (~932 ka) and Jaramillo magnetozone (~1.001–1.069 Ma) were identified from the newly studied profile in the Suchá chodba Passage (the ages of flowstones in upper part of this profile are ~130 ka, 173 ka and 199 ka). In some places, several small older (paleokarst?) solutional phreatic cavities are cut by this cave level. The lower evolution level, located 12–18 m below the upper level, originated in the Early Pleistocene (the burial age of allochthonous fluvial gravels is 1.92 ± 0.25 Ma). Low pre-burial denudation rates (3.1–5.6 m/Ma) correspond with the slowdown or interruption of tectonic uplift of the area and the long-term stabilized erosion base level during the formation of these cave levels. Their origin was linked with the formation of large pediments, of which remnants are preserved on both sides of the Jósva Valley (Hungary). 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The Brunhes/Matuyama boundary (780 ka), Kamikatsura excursion (~900 ka), Santa Rosa excursion (~932 ka) and Jaramillo magnetozone (~1.001–1.069 Ma) were identified from the newly studied profile in the Suchá chodba Passage (the ages of flowstones in upper part of this profile are ~130 ka, 173 ka and 199 ka). In some places, several small older (paleokarst?) solutional phreatic cavities are cut by this cave level. The lower evolution level, located 12–18 m below the upper level, originated in the Early Pleistocene (the burial age of allochthonous fluvial gravels is 1.92 ± 0.25 Ma). Low pre-burial denudation rates (3.1–5.6 m/Ma) correspond with the slowdown or interruption of tectonic uplift of the area and the long-term stabilized erosion base level during the formation of these cave levels. Their origin was linked with the formation of large pediments, of which remnants are preserved on both sides of the Jósva Valley (Hungary). The pediments probably correlate to the ‘foothill’ (Middle Pliocene) and ‘river-side’ (Late Pliocene–Early Pleistocene) levels in the denudation chronology of the Western Carpathians. •Fluvially-modelled cave levels developed in relation to the formation of large pediments.•Combined use of absolute dating methods for the reconstruction of cave chronology.•The largest cave levels in the marginal part of the Western Carpathians formed in the Middle Pliocene and Early Pleistocene.•Paleo-denudation rates during the formation of cave levels are equivalent to low denudation rates of old cratons.•Refined denudation chronology of the Western Carpathians during the Middle Pliocene.</description><subject>Aggtelek Karst</subject><subject>Cave level</subject><subject>Continental interfaces, environment</subject><subject>Cosmogenic nuclide dating</subject><subject>Earth Sciences</subject><subject>Environmental Sciences</subject><subject>Geomorphology</subject><subject>Global Changes</subject><subject>Paleomagnetism</subject><subject>Pediment</subject><subject>Sciences of the Universe</subject><subject>Slovak Karst</subject><subject>Tectonics</subject><subject>U-series dating</subject><issn>0169-555X</issn><issn>1872-695X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><recordid>eNqFUcGO0zAQtRBIlIVfQD6yEunaaZzEnFgKbJG6YiVA7M2a2pPGxYkrO43UG__Ah_BPfAlOC1w5jebNe2808wh5ztmcM15e7eZb9J0P-3aeM14ncM5Y_oDMeF3lWSnF_UMyS0SZCSHuH5MnMe4YY0Ul2Yz8vD24wWYOR3T0re-shl_ff7yBAMYB1TAijcc4YEdffHJ-hG8WXtLVod9COF6-orfWGIf0zlmvscckvXNo43DqKI7eHQbrewq9obbbu2Q_9ZE2PtChRWqwP5gTRnUbfO-d3x6pb07Dr5g2h54uIexhaC308Sl51ICL-OxPvSBf3r_7vFxl6483H5bX6wwWpRyyQgDWZcVLnbNK57CQFZNFvtnUKHJWACAyjg1H0KWQnG00q-pCiBqlMIibxQW5PPu24NQ-2C7dqzxYtbpeqwlLn5YLVvKRJ2555urgYwzY_BNwpqaI1E79jUhNEU14iigJX5-FmC4ZLQYVtcVeo7EB9aCMt_-z-A28DaPg</recordid><startdate>20190215</startdate><enddate>20190215</enddate><creator>Bella, Pavel</creator><creator>Bosák, Pavel</creator><creator>Braucher, Régis</creator><creator>Pruner, Petr</creator><creator>Hercman, Helena</creator><creator>Minár, Jozef</creator><creator>Veselský, Michal</creator><creator>Holec, Juraj</creator><creator>Léanni, Laëtitia</creator><general>Elsevier B.V</general><general>Elsevier</general><scope>AAYXX</scope><scope>CITATION</scope><scope>1XC</scope><orcidid>https://orcid.org/0000-0002-4637-4302</orcidid></search><sort><creationdate>20190215</creationdate><title>Multi-level Domica–Baradla cave system (Slovakia, Hungary): Middle Pliocene–Pleistocene evolution and implications for the denudation chronology of the Western Carpathians</title><author>Bella, Pavel ; 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Existing opinions on the age of the well-known cave system have not been based on the dating of cave sediments deposited during older evolution phases. Previous U-series dating and the first paleomagnetic analyses of dripstones, flowstones and fine-grained allochthonous sediments identified only younger accumulative phases of the cave evolution in Late Pleistocene. Our cosmogenic nuclide dating (10Be and 26Al) of allochthonous fluvial gravels from the upper and lower levels of the Domica Cave (Slovakia) reveal much older evolution phases. Two burial ages at 3.47 ± 0.78 Ma and 2.94 ± 0.50 Ma show that the upper level of the cave system originated in, or before, the Middle Pliocene. Its younger accumulation phases (Early–Middle Pleistocene) are documented based on magnetostratigraphy and U-series dating of fine-grained sediments and flowstones. The Brunhes/Matuyama boundary (780 ka), Kamikatsura excursion (~900 ka), Santa Rosa excursion (~932 ka) and Jaramillo magnetozone (~1.001–1.069 Ma) were identified from the newly studied profile in the Suchá chodba Passage (the ages of flowstones in upper part of this profile are ~130 ka, 173 ka and 199 ka). In some places, several small older (paleokarst?) solutional phreatic cavities are cut by this cave level. The lower evolution level, located 12–18 m below the upper level, originated in the Early Pleistocene (the burial age of allochthonous fluvial gravels is 1.92 ± 0.25 Ma). Low pre-burial denudation rates (3.1–5.6 m/Ma) correspond with the slowdown or interruption of tectonic uplift of the area and the long-term stabilized erosion base level during the formation of these cave levels. Their origin was linked with the formation of large pediments, of which remnants are preserved on both sides of the Jósva Valley (Hungary). The pediments probably correlate to the ‘foothill’ (Middle Pliocene) and ‘river-side’ (Late Pliocene–Early Pleistocene) levels in the denudation chronology of the Western Carpathians. •Fluvially-modelled cave levels developed in relation to the formation of large pediments.•Combined use of absolute dating methods for the reconstruction of cave chronology.•The largest cave levels in the marginal part of the Western Carpathians formed in the Middle Pliocene and Early Pleistocene.•Paleo-denudation rates during the formation of cave levels are equivalent to low denudation rates of old cratons.•Refined denudation chronology of the Western Carpathians during the Middle Pliocene.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.geomorph.2018.10.002</doi><tpages>18</tpages><orcidid>https://orcid.org/0000-0002-4637-4302</orcidid></addata></record>
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subjects Aggtelek Karst
Cave level
Continental interfaces, environment
Cosmogenic nuclide dating
Earth Sciences
Environmental Sciences
Geomorphology
Global Changes
Paleomagnetism
Pediment
Sciences of the Universe
Slovak Karst
Tectonics
U-series dating
title Multi-level Domica–Baradla cave system (Slovakia, Hungary): Middle Pliocene–Pleistocene evolution and implications for the denudation chronology of the Western Carpathians
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