Sea level controls on buried geomorphology within the Swan River estuary during the Late Quaternary

Giada Bufarale; Mick O’Leary; Alexandra Stevens

doi:10.1080/22020586.2019.12073056

2nd Australasian Exploration Geoscience Conference: Data to Discovery

ISSN: 2202-0586
E-ISSN:

oa Sea level controls on buried geomorphology within the Swan River estuary during the Late Quaternary
Authors Giada Bufarale^a, Mick O’Leary^b and Alexandra Stevens^c
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^a Curtin University, Bentley, , WA, 6102, [email protected] ^b UWA / Curtin University, 35 Stirling Hwy, Crawley, , WA, 6009, [email protected] ^c Curtin University, Bentley, , WA, 6102, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2019, Issue 2nd Australasian Exploration Geoscience Conference: Data to Discovery, Dec 2019, p. 1 - 3
DOI: https://doi.org/10.1080/22020586.2019.12073056
- Published online: 01 Dec 2019

Abstract

Summary

A high-resolution seismic survey was carried out across the metropolitan reach of the Swan River (Perth, Western Australia) to investigate its Late Quaternary sub-surficial geomorphology. Shallow imaging data, integrated with sediment cores, pre-existing literature (including dating) and LiDAR images, revealed three main units, forming a complex system of buried paleochannels, which developed during the Late Quaternary glacial sea level lowstands, and infilled during interglacial highstands.

The deepest unit was interpreted as comprising estuarine to fluvial sediments of the Perth Formation, deposited during the Last Interglacial (~130-80 thousand years before present) in a wide paleo-valley that cut the basement.

The sedimentary sequence of the overlaying middle unit belongs to the Swan River Formation, which consists of heterogenic fluvial to lacustrine sediments, deposited during the Last Glacial lowstand (~80-18 thousand years before present).

The shallowest unit comprises Holocene fluvial and estuarine sediments, up to ten-thousand-year-old.

This research represents the first environmental high-resolution acoustic investigation of the Swan River estuary. The findings have improved the understanding of the Late Quaternary Swan River development, providing a useful tool for modelling river onset and evolution, following sea level transgressions.

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References

Berger, W.H., 2008. Sea level in the Late Quaternary: Patterns of variation and implications. International Journal of Earth Science 97, pp.1143-1150. doi:10.1007/s00531-008-0343-y.
Brooke, B., Creasey, J. and Sexton, M., 2010. Broad-scale geomorphology and benthic habitats of the Perth coastal plain and Rottnest Shelf, Western Australia, identified in a merged topographic and bathymetric digital relief model. International Journal of Remote Sensing, 31(23), pp.6223-6237.
Bufarale, G., O'Leary, M., Stevens, A. and Collins, L.B., 2017. Sea level controls on paleochannel development within the Swan River estuary during the Late Pleistocene to Holocene. Catena, 153, pp.131-142.
Gozzard, J.R., 2007. The Guildford Formation re-evaluated, Australian Geomechanics Society and Institute of Engineers, 42(3), pp.59-79.
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Mathew, G.V., 2010. Analysis and interpretation of ground and building movements due to EPB tunnelling. PhD Thesis, University of Western Australia.
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Saqab, M.M., Bourget, J., 2015. Controls on the distribution and growth of isolated carbonate build-ups in the Timor Sea (NW Australia) during the Quaternary. Marine Petroleoum Geololy 62, pp123-143. doi:10.1016/j.marpetgeo.2015.01.014.

/content/journals/10.1080/22020586.2019.12073056

Article Type: Research Article

Keyword(s): high-resolution seismic stratigraphy; Late Quaternary; sea level fluctuations; Swan River paleochannels

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oa Sea level controls on buried geomorphology within the Swan River estuary during the Late Quaternary

Abstract

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