Sedimentary architecture and optical dating of Middle and Late Pleistocene Rhine-Meuse deposits - Fluvial response to climate change, sea-level fluctuation and glaciation:

Eight continuous corings in the west-central Netherlands show a 15 to 25 m thick stacked sequence of sandy to gravelly channel-belt deposits of the Rhine-Meuse system. This succession of fluvial sediments was deposited under net subsiding conditions in the southern part of the North Sea Basin and do...

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Main Authors: Busschers, F.S., Weerts, H.J.T., Wallinga, J., Cleveringa, P., Kasse, C., Wolf, H.de, Cohen, K.M.
Format: Article in Journal/Newspaper
Language:English
Published: 2005
Subjects:
Geosciences
Climate
Estuarine
Fluvial
Glaciation
Isostacy
Late Pleistocene
Middle Pleistocene
Netherlands
North Sea Basin
Optical dating
Rhine-Meuse
Sea-level
Subsidence
Pleistocene
sedimentary sequence
Benelux
Eastern Hemisphere
Eurasia
Europe
Rhine-Meuse Delta
Western Europe
World
Geological Survey Netherlands
Energy / Geological Survey Netherlands
permafrost
Online Access:http://resolver.tudelft.nl/uuid:48f8d03f-1e85-4556-9f56-7cec45296433
id fttno:oai:tudelft.nl:uuid:48f8d03f-1e85-4556-9f56-7cec45296433
record_format openpolar
spelling fttno:oai:tudelft.nl:uuid:48f8d03f-1e85-4556-9f56-7cec45296433 2023-05-15T17:57:59+02:00 Sedimentary architecture and optical dating of Middle and Late Pleistocene Rhine-Meuse deposits - Fluvial response to climate change, sea-level fluctuation and glaciation: Busschers, F.S. Weerts, H.J.T. Wallinga, J. Cleveringa, P. Kasse, C. Wolf, H.de Cohen, K.M. 2005-01-01 http://resolver.tudelft.nl/uuid:48f8d03f-1e85-4556-9f56-7cec45296433 en eng uuid:48f8d03f-1e85-4556-9f56-7cec45296433 238508 http://resolver.tudelft.nl/uuid:48f8d03f-1e85-4556-9f56-7cec45296433 Geologie en Mijnbouw/Netherlands Journal of Geosciences, 1, 84, 25-41 Geosciences Climate Estuarine Fluvial Glaciation Isostacy Late Pleistocene Middle Pleistocene Netherlands North Sea Basin Optical dating Rhine-Meuse Sea-level Subsidence Pleistocene sedimentary sequence Benelux Eastern Hemisphere Eurasia Europe Rhine-Meuse Delta Western Europe World Geological Survey Netherlands Energy / Geological Survey Netherlands article 2005 fttno 2022-04-10T15:54:25Z Eight continuous corings in the west-central Netherlands show a 15 to 25 m thick stacked sequence of sandy to gravelly channel-belt deposits of the Rhine-Meuse system. This succession of fluvial sediments was deposited under net subsiding conditions in the southern part of the North Sea Basin and documents the response of the Rhine-Meuse river system to climate and sea-level change and to the glaciation history. On the basis of grain size characteristics, sedimentological structures, nature and extent of bounding surfaces and palaeo-ecological data, the sequence was subdivided into five fluvial units, an estuarine and an aeolian unit. Optical dating of 34 quartz samples showed that the units have intra Saalian to Weichselian ages (Marine Isotope Stages 8 to 2). Coarse-grained fluvial sediments primarily deposited under cold climatic conditions, with low vegetation cover and continuous permafrost. Finer-grained sediments generally deposited during more temperate climatic conditions with continuous vegetation cover and/or periods of sea-level highstand. Most of the sedimentary units are bounded by unconformities that represent erosion during periods of climate instability, sea-level fall and/or glacio-isostatic uplift. Article in Journal/Newspaper permafrost TU Delft: Institutional Repository (Delft University of Technology)
institution Open Polar
collection TU Delft: Institutional Repository (Delft University of Technology)
op_collection_id fttno
language English
topic Geosciences
Climate
Estuarine
Fluvial
Glaciation
Isostacy
Late Pleistocene
Middle Pleistocene
Netherlands
North Sea Basin
Optical dating
Rhine-Meuse
Sea-level
Subsidence
Pleistocene
sedimentary sequence
Benelux
Eastern Hemisphere
Eurasia
Europe
Rhine-Meuse Delta
Western Europe
World
Geological Survey Netherlands
Energy / Geological Survey Netherlands
spellingShingle Geosciences
Climate
Estuarine
Fluvial
Glaciation
Isostacy
Late Pleistocene
Middle Pleistocene
Netherlands
North Sea Basin
Optical dating
Rhine-Meuse
Sea-level
Subsidence
Pleistocene
sedimentary sequence
Benelux
Eastern Hemisphere
Eurasia
Europe
Rhine-Meuse Delta
Western Europe
World
Geological Survey Netherlands
Energy / Geological Survey Netherlands
Busschers, F.S.
Weerts, H.J.T.
Wallinga, J.
Cleveringa, P.
Kasse, C.
Wolf, H.de
Cohen, K.M.
Sedimentary architecture and optical dating of Middle and Late Pleistocene Rhine-Meuse deposits - Fluvial response to climate change, sea-level fluctuation and glaciation:
topic_facet Geosciences
Climate
Estuarine
Fluvial
Glaciation
Isostacy
Late Pleistocene
Middle Pleistocene
Netherlands
North Sea Basin
Optical dating
Rhine-Meuse
Sea-level
Subsidence
Pleistocene
sedimentary sequence
Benelux
Eastern Hemisphere
Eurasia
Europe
Rhine-Meuse Delta
Western Europe
World
Geological Survey Netherlands
Energy / Geological Survey Netherlands
description Eight continuous corings in the west-central Netherlands show a 15 to 25 m thick stacked sequence of sandy to gravelly channel-belt deposits of the Rhine-Meuse system. This succession of fluvial sediments was deposited under net subsiding conditions in the southern part of the North Sea Basin and documents the response of the Rhine-Meuse river system to climate and sea-level change and to the glaciation history. On the basis of grain size characteristics, sedimentological structures, nature and extent of bounding surfaces and palaeo-ecological data, the sequence was subdivided into five fluvial units, an estuarine and an aeolian unit. Optical dating of 34 quartz samples showed that the units have intra Saalian to Weichselian ages (Marine Isotope Stages 8 to 2). Coarse-grained fluvial sediments primarily deposited under cold climatic conditions, with low vegetation cover and continuous permafrost. Finer-grained sediments generally deposited during more temperate climatic conditions with continuous vegetation cover and/or periods of sea-level highstand. Most of the sedimentary units are bounded by unconformities that represent erosion during periods of climate instability, sea-level fall and/or glacio-isostatic uplift.
format Article in Journal/Newspaper
author Busschers, F.S.
Weerts, H.J.T.
Wallinga, J.
Cleveringa, P.
Kasse, C.
Wolf, H.de
Cohen, K.M.
author_facet Busschers, F.S.
Weerts, H.J.T.
Wallinga, J.
Cleveringa, P.
Kasse, C.
Wolf, H.de
Cohen, K.M.
author_sort Busschers, F.S.
title Sedimentary architecture and optical dating of Middle and Late Pleistocene Rhine-Meuse deposits - Fluvial response to climate change, sea-level fluctuation and glaciation:
title_short Sedimentary architecture and optical dating of Middle and Late Pleistocene Rhine-Meuse deposits - Fluvial response to climate change, sea-level fluctuation and glaciation:
title_full Sedimentary architecture and optical dating of Middle and Late Pleistocene Rhine-Meuse deposits - Fluvial response to climate change, sea-level fluctuation and glaciation:
title_fullStr Sedimentary architecture and optical dating of Middle and Late Pleistocene Rhine-Meuse deposits - Fluvial response to climate change, sea-level fluctuation and glaciation:
title_full_unstemmed Sedimentary architecture and optical dating of Middle and Late Pleistocene Rhine-Meuse deposits - Fluvial response to climate change, sea-level fluctuation and glaciation:
title_sort sedimentary architecture and optical dating of middle and late pleistocene rhine-meuse deposits - fluvial response to climate change, sea-level fluctuation and glaciation:
publishDate 2005
url http://resolver.tudelft.nl/uuid:48f8d03f-1e85-4556-9f56-7cec45296433
genre permafrost
genre_facet permafrost
op_source Geologie en Mijnbouw/Netherlands Journal of Geosciences, 1, 84, 25-41
op_relation uuid:48f8d03f-1e85-4556-9f56-7cec45296433
238508
http://resolver.tudelft.nl/uuid:48f8d03f-1e85-4556-9f56-7cec45296433
_version_ 1766166501114511360

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