Stratigraphic evidence for an early Holocene earthquake in Aceh, Indonesia

The Holocene stratigraphy of the coastal plain of the Aceh Province of Sumatra contains 6 m of sediment with three regionally consistent buried soils above pre-Quaternary bedrock or pre-Holocene unconsolidated sediment. Litho-, bio-, and chronostratigraphic analyses of the lower buried soil reveals...

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Main Authors: Grand Pre, Candace A., Horton, Benjamin P., Kelsey, Harvey M., Rubin, Charles M., Hawkes, Andrea D., Daryono, Mudrik R., Rosenberg, Gary., Culver, Stephen J.
Other Authors: School of Physical and Mathematical Sciences
Format: Article
Language:English
Published: 2013
Online Access:https://hdl.handle.net/10356/97430
http://hdl.handle.net/10220/10561
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-974302020-03-07T12:34:43Z Stratigraphic evidence for an early Holocene earthquake in Aceh, Indonesia Grand Pre, Candace A. Horton, Benjamin P. Kelsey, Harvey M. Rubin, Charles M. Hawkes, Andrea D. Daryono, Mudrik R. Rosenberg, Gary. Culver, Stephen J. School of Physical and Mathematical Sciences Earth Observatory of Singapore The Holocene stratigraphy of the coastal plain of the Aceh Province of Sumatra contains 6 m of sediment with three regionally consistent buried soils above pre-Quaternary bedrock or pre-Holocene unconsolidated sediment. Litho-, bio-, and chronostratigraphic analyses of the lower buried soil reveals a rapid change in relative sea-level caused by coseismic subsidence during an early Holocene megathrust earthquake. Evidence for paleoseismic subsidence is preserved as a buried mangrove soil, dominated by a pollen assemblage of Rhizophora and/or Bruguiera/Ceriops taxa. The soil is abruptly overlain by a thin tsunami sand. The sand contains mixed pollen and abraded foraminiferal assemblages of both offshore and onshore environments. The tsunami sand grades upward into mud that contains both well-preserved foraminifera of intertidal origin and individuals of the gastropod Cerithidea cingulata. Radiocarbon ages from the pre- and post-seismic sedimentary sequences constrain the paleoearthquake to 6500–7000 cal. yrs. BP. We use micro-and macrofossil data to determine the local paleoenvironment before and after the earthquake. We estimate coseismic subsidence to be 0.45 ± 0.30 m, which is comparable to the 0.6 m of subsidence observed during the 2004 Aceh–Andaman earthquake on Aceh’s west coast. 2013-06-24T09:02:02Z 2019-12-06T19:42:42Z 2013-06-24T09:02:02Z 2019-12-06T19:42:42Z 2012 2012 Journal Article Grand Pre, C. A., Horton, B. P., Kelsey, H. M., Rubin, C. M., Hawkes, A. D., Daryono, M. R., et al. (2012). Stratigraphic evidence for an early Holocene earthquake in Aceh, Indonesia. Quaternary Science Reviews, 54, 142-151. 0277-3791 https://hdl.handle.net/10356/97430 http://hdl.handle.net/10220/10561 10.1016/j.quascirev.2012.03.011 en Quaternary science reviews © 2012 Elsevier Ltd.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
description The Holocene stratigraphy of the coastal plain of the Aceh Province of Sumatra contains 6 m of sediment with three regionally consistent buried soils above pre-Quaternary bedrock or pre-Holocene unconsolidated sediment. Litho-, bio-, and chronostratigraphic analyses of the lower buried soil reveals a rapid change in relative sea-level caused by coseismic subsidence during an early Holocene megathrust earthquake. Evidence for paleoseismic subsidence is preserved as a buried mangrove soil, dominated by a pollen assemblage of Rhizophora and/or Bruguiera/Ceriops taxa. The soil is abruptly overlain by a thin tsunami sand. The sand contains mixed pollen and abraded foraminiferal assemblages of both offshore and onshore environments. The tsunami sand grades upward into mud that contains both well-preserved foraminifera of intertidal origin and individuals of the gastropod Cerithidea cingulata. Radiocarbon ages from the pre- and post-seismic sedimentary sequences constrain the paleoearthquake to 6500–7000 cal. yrs. BP. We use micro-and macrofossil data to determine the local paleoenvironment before and after the earthquake. We estimate coseismic subsidence to be 0.45 ± 0.30 m, which is comparable to the 0.6 m of subsidence observed during the 2004 Aceh–Andaman earthquake on Aceh’s west coast.
author2 School of Physical and Mathematical Sciences
author_facet School of Physical and Mathematical Sciences
Grand Pre, Candace A.
Horton, Benjamin P.
Kelsey, Harvey M.
Rubin, Charles M.
Hawkes, Andrea D.
Daryono, Mudrik R.
Rosenberg, Gary.
Culver, Stephen J.
format Article
author Grand Pre, Candace A.
Horton, Benjamin P.
Kelsey, Harvey M.
Rubin, Charles M.
Hawkes, Andrea D.
Daryono, Mudrik R.
Rosenberg, Gary.
Culver, Stephen J.
spellingShingle Grand Pre, Candace A.
Horton, Benjamin P.
Kelsey, Harvey M.
Rubin, Charles M.
Hawkes, Andrea D.
Daryono, Mudrik R.
Rosenberg, Gary.
Culver, Stephen J.
Stratigraphic evidence for an early Holocene earthquake in Aceh, Indonesia
author_sort Grand Pre, Candace A.
title Stratigraphic evidence for an early Holocene earthquake in Aceh, Indonesia
title_short Stratigraphic evidence for an early Holocene earthquake in Aceh, Indonesia
title_full Stratigraphic evidence for an early Holocene earthquake in Aceh, Indonesia
title_fullStr Stratigraphic evidence for an early Holocene earthquake in Aceh, Indonesia
title_full_unstemmed Stratigraphic evidence for an early Holocene earthquake in Aceh, Indonesia
title_sort stratigraphic evidence for an early holocene earthquake in aceh, indonesia
publishDate 2013
url https://hdl.handle.net/10356/97430
http://hdl.handle.net/10220/10561
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