Palynology: A tool to identify abrupt events? An example from Chabahar Bay, southern Iran
Palynology: A tool to identify abrupt events? An example from Chabahar Bay, southern Iran
Tsunami, storm and flood events are destructive agents that have the potential to cause much damage and cost lives. The coastal regions around the north-western Arabian Sea are prone to these natural disasters with recent events including the storm and flood of AD 1842, the Makran tsunami of 1945, and Cyclone Gonu in 2007. Despite their severity, the paucity of reliable historical records does not allow us to answer pertinent questions concerning their frequency, intensity and impact. Palaeo-event analysis from the geological record allows us to extend, and test, the historical record. Here we have dated and examined a 92 cm long sediment core from the tectonically active, cyclone and storm prone Chabahar Bay area (southern Iran). Our appraisal directly tests conventional proxies for identifying abrupt events (e.g. grain-size, geochemical data), which we supplement with a novel palynological (pollen and dinocyst) approach. Both sedimentological and palynological approaches suggest a large event which was dated at < AD 1808 ± 41, whereas geochemical approaches remain inconclusive. The increase of continentally derived pollen (Pinaceae, Salix, Betula and Typha–Sparganium), increases in Brigantedinium sp. and S. ramosus as well as decreases in Lingulodinium machaerophorum suggest enhanced fluvial delivery in association with a flood. This investigation provides evidence of a major flash-flood affecting the Chabahar Bay region at < AD 1808 ± 41 which we infer is the geological expression of the storm and associated flash flood of AD 1842. Moreover, our study demonstrates the utility of palynology in identifying and understanding the causes of abrupt events to complement more widely applied techniques.
palynology, palaeoevent, Sea of Oman, flood, storm, tsunami
195-201
Miller, Ch.S.
bb698dcf-0a21-4702-8d42-340d5baccb0f
Leroy, S.A.G.
a70e895d-fafb-4b37-9370-e3aef2789c93
Izon, G.
c25cb4af-3f62-40f3-a987-34a47fb1c047
Lahijani, H.A.K.
b0cf4a56-a35a-4339-b95d-980e753e3672
Marret, F.
9fd6817e-cbc4-4dcc-b162-395a2c2ecf61
Cundy, A.B.
994fdc96-2dce-40f4-b74b-dc638286eb08
Teasdale, P.A.
198fd88a-66ed-4969-85f3-6d565a63549d
1 March 2013
Miller, Ch.S.
bb698dcf-0a21-4702-8d42-340d5baccb0f
Leroy, S.A.G.
a70e895d-fafb-4b37-9370-e3aef2789c93
Izon, G.
c25cb4af-3f62-40f3-a987-34a47fb1c047
Lahijani, H.A.K.
b0cf4a56-a35a-4339-b95d-980e753e3672
Marret, F.
9fd6817e-cbc4-4dcc-b162-395a2c2ecf61
Cundy, A.B.
994fdc96-2dce-40f4-b74b-dc638286eb08
Teasdale, P.A.
198fd88a-66ed-4969-85f3-6d565a63549d
Miller, Ch.S., Leroy, S.A.G., Izon, G., Lahijani, H.A.K., Marret, F., Cundy, A.B. and Teasdale, P.A.
(2013)
Palynology: A tool to identify abrupt events? An example from Chabahar Bay, southern Iran.
Marine Geology, 337, .
(doi:10.1016/j.margeo.2013.03.004).
Abstract
Tsunami, storm and flood events are destructive agents that have the potential to cause much damage and cost lives. The coastal regions around the north-western Arabian Sea are prone to these natural disasters with recent events including the storm and flood of AD 1842, the Makran tsunami of 1945, and Cyclone Gonu in 2007. Despite their severity, the paucity of reliable historical records does not allow us to answer pertinent questions concerning their frequency, intensity and impact. Palaeo-event analysis from the geological record allows us to extend, and test, the historical record. Here we have dated and examined a 92 cm long sediment core from the tectonically active, cyclone and storm prone Chabahar Bay area (southern Iran). Our appraisal directly tests conventional proxies for identifying abrupt events (e.g. grain-size, geochemical data), which we supplement with a novel palynological (pollen and dinocyst) approach. Both sedimentological and palynological approaches suggest a large event which was dated at < AD 1808 ± 41, whereas geochemical approaches remain inconclusive. The increase of continentally derived pollen (Pinaceae, Salix, Betula and Typha–Sparganium), increases in Brigantedinium sp. and S. ramosus as well as decreases in Lingulodinium machaerophorum suggest enhanced fluvial delivery in association with a flood. This investigation provides evidence of a major flash-flood affecting the Chabahar Bay region at < AD 1808 ± 41 which we infer is the geological expression of the storm and associated flash flood of AD 1842. Moreover, our study demonstrates the utility of palynology in identifying and understanding the causes of abrupt events to complement more widely applied techniques.
Text
1-s2.0-S0025322713000303-main.pdf
- Other
Available under License Other.
More information
Published date: 1 March 2013
Keywords:
palynology, palaeoevent, Sea of Oman, flood, storm, tsunami
Organisations:
Geochemistry
Identifiers
Local EPrints ID: 399287
URI: http://eprints.soton.ac.uk/id/eprint/399287
ISSN: 0025-3227
PURE UUID: 571f2d7b-f011-4b1a-802b-fc62481acbb7
Catalogue record
Date deposited: 10 Aug 2016 14:32
Last modified: 15 Mar 2024 03:52
Export record
Altmetrics
Contributors
Author:
Ch.S. Miller
Author:
S.A.G. Leroy
Author:
G. Izon
Author:
H.A.K. Lahijani
Author:
F. Marret
Author:
P.A. Teasdale
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
