Abstract
The analyses of cores retrieved from three sites near Port Blair (South Andaman) revealed out-of-sequence deposits at various depths. They are identified as previous episodes of tsunami by their sediment characteristics and microfossil content, using the 2004 event deposition as a template. These deposits have median ages of 601 cal. yr BP, 837 cal. yr BP, 1440 cal. yr BP, 3018 cal. yr BP, 3591 cal. yr BP, 4712 cal. yr BP, 5607 cal. yr BP, and 6357 cal. yr BP and are chronologically equivalent of those from the far-field locations in the Indian Ocean region. The distant deposits that are correlated with the South Andaman sites most likely owe their origin to the 2004-type events, as indicated by tsunami simulations in the study region. The long-term record presented here is characterized by an early phase of a quasiperiodic recurrence regime that transitions into a distinct interval of temporally clustered events. The quasiperiodic regime that appears around the mid-Holocene with an inter-event interval of 980 ± 385 years is followed by a sizable quiescent period of 1605 ± 245 years, before being succeeded by a regime of temporally clustered events. The chronology of nine tsunami events in the last 6500 years from the Indian Ocean region, thus implies a nonlinear pattern for the causative earthquakes. As demonstrated in the subduction zones elsewhere, the temporal variability of tsunamigenic great earthquakes is supported by the theoretical models espousing the characteristics of long-term stress recycling processes active within the subduction zones and transfer processes between the lower viscoelastic layer and the upper seismogenic crust.
Original language | English |
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Article number | 107051 |
Journal | Marine Geology |
Volume | 460 |
Early online date | 22 Apr 2023 |
DOIs | |
Publication status | Published - 30 Jun 2023 |
Bibliographical note
Funding Information:This study was funded by the Indian National Centre for Ocean Information Services , Hyderabad, India (INCOIS: F&A:XII:B1:018, 2013) and the Board of Research in Nuclear Sciences, Department of Atomic Energy, Government of India (36(2)/14/48/2016-BRNS/36121.2017) to C.P.R. Radiocarbon dating of the samples was conducted at Poznan Radiocarbon Laboratory, Poland. We thank Prof. Marc De Batist (Ghent University, Belgium) for reviewing an earlier version of the manuscript. We greatly value the critical evaluation by three anonymous referees, and sincerely appreciate the comments and suggestions.
Data availability
The authors declare that all data supporting the findings of this study are available within the article, its supplementary information, and available at Earth and Space Science Open Archive [ESSOAr] via [doi.org/10.1002/essoar.10504555.1].
Funding
This study was funded by the Indian National Centre for Ocean Information Services , Hyderabad, India (INCOIS: F&A:XII:B1:018, 2013) and the Board of Research in Nuclear Sciences, Department of Atomic Energy, Government of India (36(2)/14/48/2016-BRNS/36121.2017) to C.P.R. Radiocarbon dating of the samples was conducted at Poznan Radiocarbon Laboratory, Poland. We thank Prof. Marc De Batist (Ghent University, Belgium) for reviewing an earlier version of the manuscript. We greatly value the critical evaluation by three anonymous referees, and sincerely appreciate the comments and suggestions. This study was funded by the Indian National Centre for Ocean Information Services, Hyderabad, India (INCOIS: F&A:XII:B1:018, 2013) and the Board of Research in Nuclear Sciences, Department of Atomic Energy, Government of India (36(2)/14/48/2016-BRNS/36121.2017) to C.P.R. Radiocarbon dating of the samples was conducted at Poznan Radiocarbon Laboratory, Poland. We thank Prof. Marc De Batist (Ghent University, Belgium) for reviewing an earlier version of the manuscript. We greatly value the critical evaluation by three anonymous referees, and sincerely appreciate the comments and suggestions.
Keywords
- Indian Ocean
- Subduction zone
- Supercycles
- The 2004 earthquake
- Tsunami recurrence
ASJC Scopus subject areas
- Oceanography
- Geology
- Geochemistry and Petrology