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Independent 40Ar/39Ar and 14C age constraints on the last five glacial terminations from the aggradational successions of the Tiber River, Rome (Italy)

Independent 40Ar/39Ar and 14C age constraints on the last five glacial terminations from the aggradational successions of the Tiber River, Rome (Italy)
Independent 40Ar/39Ar and 14C age constraints on the last five glacial terminations from the aggradational successions of the Tiber River, Rome (Italy)
We use 13 new 40Ar/39Ar and 4 new 14C datings of volcanic deposits and organic material found within near-coastal aggradational successions deposited by the Tiber River near Rome, Italy, to integrate a larger dataset previously achieved in order to offer independent age constraints to the sea-level fluctuations associated with Late Quaternary glacial cycles during the last 450 ka. Results are compared with the chronologically independently constrained Red Sea relative sea-level curve, and with the astronomically tuned deep-sea benthic ?18O record. We find good agreements for the timings of change, and in several cases for both the amplitudes and timings of change during glacial terminations T-1, T-2, T-3, and T-5. There is one striking exception, namely for glacial termination T-4 that led into interglacial Marine Isotope Stage (MIS) 9. T-4 in our results is dated a full 18 ka earlier than in the Red Sea and deep-sea benthic ?18O records (which are in good agreement with each other in spite of their independent chronological constraints). The observed discrepancy is beyond the scale of the combined age uncertainties. One possible explanation is that the documented aggradation represents an early phase, triggered by a smaller event in the sea-level record, but the thickness of the aggradational sediment sequence then suggests that the amplitude of this earlier sea-level rise is underestimated in the Red Sea and benthic ?18O records. Also, this would imply that the aggradational succession of the main T-4 deglaciation has not yet been located in the study region, which is hard to reconcile with our extensive fieldwork and borehole coverage, unless unlikely non-deposition or complete erosion. Resolving this discrepancy will improve understanding of the timing of deglaciations relative to the orbitally modulated insolation forcing of climate and will require further focused research, both into the nature and chronology of the Tiber sequences of this period, and into the chronologies of the Red Sea and deep-sea benthic ?18O records.
aggradational succession, glac ial termination, glacio-eustatic forcing, Tiber River, 40Ar/39Ar dating
0012-821X
105-117
Marra, F.
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Rohling, E.J.
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Florindo, F.
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Jicha, B.
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Nomade, S.
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Pereira, A.
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Renne, P.R.
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Marra, F.
0e85c5ec-4692-41af-92fb-13975cafd1d1
Rohling, E.J.
a2a27ef2-fcce-4c71-907b-e692b5ecc685
Florindo, F.
8782f358-6dd8-4531-aaf1-4e1e859d52db
Jicha, B.
17b214a8-d38e-4594-9553-d9dd56eb1477
Nomade, S.
4e437f9a-1c64-4b96-9f77-393f93aa3620
Pereira, A.
b2e13ee5-4593-4a8e-be2a-c2bb715b7cd8
Renne, P.R.
ecc965d9-11a9-4150-9148-d3ef0c52b671

Marra, F., Rohling, E.J., Florindo, F., Jicha, B., Nomade, S., Pereira, A. and Renne, P.R. (2016) Independent 40Ar/39Ar and 14C age constraints on the last five glacial terminations from the aggradational successions of the Tiber River, Rome (Italy). Earth and Planetary Science Letters, 449, 105-117. (doi:10.1016/j.epsl.2016.05.037).

Record type: Article

Abstract

We use 13 new 40Ar/39Ar and 4 new 14C datings of volcanic deposits and organic material found within near-coastal aggradational successions deposited by the Tiber River near Rome, Italy, to integrate a larger dataset previously achieved in order to offer independent age constraints to the sea-level fluctuations associated with Late Quaternary glacial cycles during the last 450 ka. Results are compared with the chronologically independently constrained Red Sea relative sea-level curve, and with the astronomically tuned deep-sea benthic ?18O record. We find good agreements for the timings of change, and in several cases for both the amplitudes and timings of change during glacial terminations T-1, T-2, T-3, and T-5. There is one striking exception, namely for glacial termination T-4 that led into interglacial Marine Isotope Stage (MIS) 9. T-4 in our results is dated a full 18 ka earlier than in the Red Sea and deep-sea benthic ?18O records (which are in good agreement with each other in spite of their independent chronological constraints). The observed discrepancy is beyond the scale of the combined age uncertainties. One possible explanation is that the documented aggradation represents an early phase, triggered by a smaller event in the sea-level record, but the thickness of the aggradational sediment sequence then suggests that the amplitude of this earlier sea-level rise is underestimated in the Red Sea and benthic ?18O records. Also, this would imply that the aggradational succession of the main T-4 deglaciation has not yet been located in the study region, which is hard to reconcile with our extensive fieldwork and borehole coverage, unless unlikely non-deposition or complete erosion. Resolving this discrepancy will improve understanding of the timing of deglaciations relative to the orbitally modulated insolation forcing of climate and will require further focused research, both into the nature and chronology of the Tiber sequences of this period, and into the chronologies of the Red Sea and deep-sea benthic ?18O records.

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Marra et al 2016 EPSL-D-15-01272R2.pdf - Accepted Manuscript
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More information

Accepted/In Press date: 23 May 2016
e-pub ahead of print date: 7 June 2016
Published date: 1 September 2016
Keywords: aggradational succession, glac ial termination, glacio-eustatic forcing, Tiber River, 40Ar/39Ar dating
Organisations: Paleooceanography & Palaeoclimate

Identifiers

Local EPrints ID: 400465
URI: http://eprints.soton.ac.uk/id/eprint/400465
DOI: doi:10.1016/j.epsl.2016.05.037
ISSN: 0012-821X
PURE UUID: 7a1cbc28-8fb9-4c9d-b3db-6f4bd7d06581
ORCID for E.J. Rohling: ORCID iD orcid.org/0000-0001-5349-2158

Catalogue record

Date deposited: 14 Sep 2016 15:01
Last modified: 15 Mar 2024 05:53

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Contributors

Author: F. Marra
Author: E.J. Rohling ORCID iD
Author: F. Florindo
Author: B. Jicha
Author: S. Nomade
Author: A. Pereira
Author: P.R. Renne

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