The development of the Princess Charlotte Bay chenier plain: new results and insights

Date

2015-03-31

Authors

Horne, Dylan
Lees, Brian
Cupper, Matthew
Fitzsimmons, Kathryn

Journal Title

Journal ISSN

Volume Title

Publisher

Elsevier

Abstract

Chenier plains record changes in the mode of coastal progradation between periods of mudflat accumulation and coarse sediment deposition. The geomorphic development of the Princess Charlotte Bay chenier plain was last considered in the 1980s and the conclusions have contributed to knowledge of muddy coastal morphodynamics. Obtaining new data through the use of luminescence dating techniques provided an opportunity to reassess previous findings. Data were obtained from the south western portion of the bay where the chenier ridges were most distinct whereas previous research had been concentrated on the far eastern periphery of the plain. Optically-stimulated luminescence age estimates and radiocarbon ages from eight of the 11 most seaward chenier ridges yielded a new depositional chronology. The recent chenier sequence in this area began forming with the establishment of the most landward chenier ridge (ridge 1) no more than 4000. yr BP. In the ~. 1500. years following this, two more chenier ridges were built (ridges 2 and 3, which were not sampled). Ridge 4 was being built at around 2400. yr BP, ridges 5 and 6 at around 2100. yr BP, ridge 7 at around 1900. yr BP, ridges 8 and 9 at around 1300. yr BP, ridge 10 (which was not dated) between 1300 and 820. yr BP, and ridge 11 at around 820. cal. yr BP. Comparing the new data to previous data and conclusions yielded new insights into the Holocene development of the chenier plain. These new insights may provide a means for Australian chenier plains to inform contemporary coastal morphodynamics more broadly.

Description

Keywords

Australia, Chenier, Climate, Coastal, Holocene, Sea level

Citation

Source

Marine Geology

Type

Journal article

Book Title

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