HAL :: [hal-00668682, version 1] Relative sea-level fall since the last interglacial stage: Are coasts uplifting worldwide?

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173 articles – 641 Notices [english version]

HAL : hal-00668682, version 1

DOI : 10.1016/j.earscirev.2011.05.002

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Relative sea-level fall since the last interglacial stage: Are coasts uplifting worldwide?
Pedoja K., Husson L., Regard V., Cobbold P. R., Ostanciaux E., Johnson M. E., Kershaw S., Saillard M., Martinod J., Furgerot L. et al
Earth-Science Reviews 108, 1-2 (2011) 1-15 - http://hal.archives-ouvertes.fr/hal-00668682

Type de publication :

Articles dans des revues avec comité de lecture

Domaine :

Planète et Univers/Interfaces continentales, environnement

Sciences de l'environnement/Milieux et Changements globaux

Titre :

Relative sea-level fall since the last interglacial stage: Are coasts uplifting worldwide?

Auteur(s) :

) ¹, Laurent Husson ^2, 3, Vincent Regard ^4, 5, Peter Robert Cobbold (

) ³, Emilie Ostanciaux ³, Markes E. Johnson ⁶, Stephen Kershaw ⁷, Marianne Saillard ⁴, Joseph Martinod ⁴, Lucille Furgerot ¹, Pierre Weill ¹, Bernard Delcaillau ¹

Laboratoire :

1 :	Morphodynamique continentale et côtière (MCC)

	http://WWW.geos.unicaen.fr

	CNRS : UMR6143 – INSU – Université de Caen Basse-Normandie – Université de Rouen

	24 Rue des tilleuls 14000 CAEN

	France

2 :	Laboratoire de Planétologie et Géodynamique de Nantes (LPGN)

	CNRS : UMR6112 – INSU – Université de Nantes

	2 Rue de la Houssinière - BP 92208 44322 NANTES CEDEX 3

	France

3 :	Géosciences Rennes (GR)

	http://www.geosciences.univ-rennes1.fr/

	CNRS : UMR6118 – INSU – Observatoire des Sciences de l'Univers de Rennes – Université de Rennes 1

	Bâtiment 15 - Université de Rennes 1 - Campus de Beaulieu - CS 74205 - 35042 Rennes Cedex - France

	France

4 :	Laboratoire des Mécanismes et Transfert en Géologie (LMTG)

	http://www.lmtg.obs-mip.fr/

	CNRS : UMR5563 – Observatoire Midi-Pyrénées – Université Paul Sabatier [UPS] - Toulouse III – Institut de recherche pour le développement [IRD] : UMR154

	14 avenue Edouard Belin 31400 Toulouse

	France

5 :	Géosciences Environnement Toulouse (GET)

	http://wwwget.obs-mip.fr/

	CNRS : UMR5563 – Institut de recherche pour le développement [IRD] : UMR239 – Université Paul Sabatier [UPS] - Toulouse III – Observatoire Midi-Pyrénées

	Observatoire Midi-Pyrénées 14 Avenue Edouard Belin 31400 Toulouse

	France

6 :	Williams College

	Williams College, Massachusetts 01267, USA

	Massachusetts 01267, USA

	France

7 :	Institute for the Environment

	Brunel University

	Uxbridge Middlesex

	Royaume-Uni

Résumé :

The growing interest in quantification of vertical ground motion stems from the need to understand in detail how the Earth's crust behaves, for both scientific and social reasons. However, only recently has the refinement of dating techniques made possible the use of paleoshorelines as reliable tools for tectonic studies. Although there are many local studies of Quaternary vertical motions of coastlines, we know of no comprehensive worldwide synthesis. Here we provide a compilation of 890 records of paleoshoreline sequences, with particular emphasis on the last interglacial stage (Marine Isotopic Stage [MIS] 5e, ~ 122 ka). The quality of dating MIS 5e makes it a reliable marker to evaluate vertical ground motion rates during the late Quaternary on a global scale. The results show that most coastal segments have risen relative to sea-level with a mean uplift rate higher than 0.2 mm/yr, i.e. more than four times faster than the estimated eustatic drop in sea level. The results also reveal that the uplift rate is faster on average for active margins than for passive margins. Neither dynamic topography nor glacio-hydro-isostasy may explain sustained uplift of all continental margins, as revealed by the wide distribution of uplifted sequences of paleoshorelines. Instead, we suggest that only plate-tectonic processes reconcile all observations of Quaternary coastal uplift. We propose that long-term continental accretion has led to compression of continental plates and uplift of their margins. Therefore this study concludes that plate-tectonics processes impact all margins and emphasizes the fact that the notion of a stable platform is unrealistic. These results therefore seriously challenge the evaluation of past sea levels from the fossil shoreline record.

Langue du texte
intégral :

Anglais

Journal :

Earth-Science Reviews
Publisher	Elsevier
ISSN	0012-8252

Audience :

internationale

Date de publication :

14/09/2011

Volume :

108

Numéro :

1-2

Page, identifiant, ... :

1-15

Mots Clés :

Sequences of paleo-shorelines – Last interglacial stage – MIS 5e – Sea-level – Quaternary – Plate tectonics


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Contributeur : Valérie Casado <>
Soumis le : Vendredi 10 Février 2012, 10:50:18
Dernière modification le : Vendredi 10 Février 2012, 10:50:18