The transgressive Early-Middle Holocene boundary – the case for a GSSP at Rotterdam, Rhine Delta, North Sea Basin.

Postglacial sea-level rise at the start of the Holocene continued to drown continental shelves around the world. By the early–middle Holocene transition, deltas and other coastal systems had begun to stabilize their positions, which have since been maintained. The last major acceleration of sea-leve...

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Main Authors:	Cohen, K.M., Hijma, M.P., Rocha, Rogério B., Pais, João, Kullberg, José Carlos, Finney, Stanley
Other Authors:	Coastal dynamics, Fluvial systems and Global change, Geomorfologie, FG Kusten, Rivieren, Global Change
Format:	Book Part
Language:	English
Published:	2014
Subjects:	sequence stratigraphy GSSP Holocene Middle Holocene Early Holocene Sea-level rise delta evolution chronostratigraphy Greenland Hudson Hudson Bay Ice Sheet
Online Access:	https://dspace.library.uu.nl/handle/1874/301764

id	ftunivutrecht:oai:dspace.library.uu.nl:1874/301764
record_format	openpolar
spelling	ftunivutrecht:oai:dspace.library.uu.nl:1874/301764 2023-07-23T04:19:37+02:00 The transgressive Early-Middle Holocene boundary – the case for a GSSP at Rotterdam, Rhine Delta, North Sea Basin. Cohen, K.M. Hijma, M.P. Rocha, Rogério B. Pais, João Kullberg, José Carlos Finney, Stanley Coastal dynamics, Fluvial systems and Global change Geomorfologie FG Kusten, Rivieren, Global Change 2014 application/pdf https://dspace.library.uu.nl/handle/1874/301764 en eng https://dspace.library.uu.nl/handle/1874/301764 info:eu-repo/semantics/EmbargoedAccess sequence stratigraphy GSSP Holocene Middle Holocene Early Holocene Sea-level rise delta evolution chronostratigraphy Part of book 2014 ftunivutrecht 2023-07-02T01:04:59Z Postglacial sea-level rise at the start of the Holocene continued to drown continental shelves around the world. By the early–middle Holocene transition, deltas and other coastal systems had begun to stabilize their positions, which have since been maintained. The last major acceleration of sea-level rise occurred between 8.5 and 8.2 ka, due to the largest meltwater pulse from a single source area, released from the thawing Laurentian ice sheet in the Hudson Bay area. This event left a marked transgressive impact on river-mouth sedimentary sequences around the globe, exemplified in the Rhine Delta (North Sea, The Netherlands) from boreholes and underground exposures in the city of Rotterdam and its megaharbour. What ended as the 8.2 ka climatic event actually began as a freshwater release at ~8.45 ka: it should therefore be properly regarded as an 8.5–8.2 ka event. In contrast to the 8.2 ka climatic event, which was temporary, globally highly variable, and commonly insignificantly registered, and which only indirectly affected sedimentation, the sea-level imprint of the freshwater release was permanent, circumoceanic, and predictably spatially variable, and had direct impacts on sedimentation on both sides of the migrating coastline. Consequently, the water release left lithostratigraphic- and environmental-event boundaries in coastal sequences around the world, in the zone where Holocene accumulations are thickest and functional subdivision is architecturally most important. For these reasons, the sea-level signal of the 8.5–8.2 ka event should be considered as the beginning of a formalized Middle Holocene, and not the somewhat-later 8.2 ka cold spell maximum over Greenland, as is currently being proposed elsewhere. In that context, the transgressive contact found at the base of the Rhine Delta at Rotterdam is presented as a potential GSSP (8450 ± 44 cal BP). Book Part Greenland Hudson Bay Ice Sheet Utrecht University Repository Greenland Hudson Hudson Bay
institution	Open Polar
collection	Utrecht University Repository
op_collection_id	ftunivutrecht
language	English
topic	sequence stratigraphy GSSP Holocene Middle Holocene Early Holocene Sea-level rise delta evolution chronostratigraphy
spellingShingle	sequence stratigraphy GSSP Holocene Middle Holocene Early Holocene Sea-level rise delta evolution chronostratigraphy Cohen, K.M. Hijma, M.P. Rocha, Rogério B. Pais, João Kullberg, José Carlos Finney, Stanley The transgressive Early-Middle Holocene boundary – the case for a GSSP at Rotterdam, Rhine Delta, North Sea Basin.
topic_facet	sequence stratigraphy GSSP Holocene Middle Holocene Early Holocene Sea-level rise delta evolution chronostratigraphy
description	Postglacial sea-level rise at the start of the Holocene continued to drown continental shelves around the world. By the early–middle Holocene transition, deltas and other coastal systems had begun to stabilize their positions, which have since been maintained. The last major acceleration of sea-level rise occurred between 8.5 and 8.2 ka, due to the largest meltwater pulse from a single source area, released from the thawing Laurentian ice sheet in the Hudson Bay area. This event left a marked transgressive impact on river-mouth sedimentary sequences around the globe, exemplified in the Rhine Delta (North Sea, The Netherlands) from boreholes and underground exposures in the city of Rotterdam and its megaharbour. What ended as the 8.2 ka climatic event actually began as a freshwater release at ~8.45 ka: it should therefore be properly regarded as an 8.5–8.2 ka event. In contrast to the 8.2 ka climatic event, which was temporary, globally highly variable, and commonly insignificantly registered, and which only indirectly affected sedimentation, the sea-level imprint of the freshwater release was permanent, circumoceanic, and predictably spatially variable, and had direct impacts on sedimentation on both sides of the migrating coastline. Consequently, the water release left lithostratigraphic- and environmental-event boundaries in coastal sequences around the world, in the zone where Holocene accumulations are thickest and functional subdivision is architecturally most important. For these reasons, the sea-level signal of the 8.5–8.2 ka event should be considered as the beginning of a formalized Middle Holocene, and not the somewhat-later 8.2 ka cold spell maximum over Greenland, as is currently being proposed elsewhere. In that context, the transgressive contact found at the base of the Rhine Delta at Rotterdam is presented as a potential GSSP (8450 ± 44 cal BP).
author2	Coastal dynamics, Fluvial systems and Global change Geomorfologie FG Kusten, Rivieren, Global Change
format	Book Part
author	Cohen, K.M. Hijma, M.P. Rocha, Rogério B. Pais, João Kullberg, José Carlos Finney, Stanley
author_facet	Cohen, K.M. Hijma, M.P. Rocha, Rogério B. Pais, João Kullberg, José Carlos Finney, Stanley
author_sort	Cohen, K.M.
title	The transgressive Early-Middle Holocene boundary – the case for a GSSP at Rotterdam, Rhine Delta, North Sea Basin.
title_short	The transgressive Early-Middle Holocene boundary – the case for a GSSP at Rotterdam, Rhine Delta, North Sea Basin.
title_full	The transgressive Early-Middle Holocene boundary – the case for a GSSP at Rotterdam, Rhine Delta, North Sea Basin.
title_fullStr	The transgressive Early-Middle Holocene boundary – the case for a GSSP at Rotterdam, Rhine Delta, North Sea Basin.
title_full_unstemmed	The transgressive Early-Middle Holocene boundary – the case for a GSSP at Rotterdam, Rhine Delta, North Sea Basin.
title_sort	transgressive early-middle holocene boundary – the case for a gssp at rotterdam, rhine delta, north sea basin.
publishDate	2014
url	https://dspace.library.uu.nl/handle/1874/301764
geographic	Greenland Hudson Hudson Bay
geographic_facet	Greenland Hudson Hudson Bay
genre	Greenland Hudson Bay Ice Sheet
genre_facet	Greenland Hudson Bay Ice Sheet
op_relation	https://dspace.library.uu.nl/handle/1874/301764
op_rights	info:eu-repo/semantics/EmbargoedAccess
_version_	1772182869917040640

The transgressive Early-Middle Holocene boundary – the case for a GSSP at Rotterdam, Rhine Delta, North Sea Basin.

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