The morphology of beaches at the base of cliffs: a field-study of the Port Campbell Limestone cliffs
Cliffs are erosional landforms that migrate slowly inland over time. Sea level rise, as a result of climate change, is predicated to accelerate these rates of erosion. These predictions are based on numerical simulation of cliff systems rather than field observations. In such predictions beaches are...
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ftumelbourne:oai:jupiter.its.unimelb.edu.au:11343/230569 2024-06-02T08:14:50+00:00 The morphology of beaches at the base of cliffs: a field-study of the Port Campbell Limestone cliffs Knox, Harry 2015 http://hdl.handle.net/11343/230569 unknown http://hdl.handle.net/11343/230569 Terms and Conditions: Copyright in works deposited in Minerva Access is retained by the copyright owner. You may download, print or save electronic copies of a whole work, or part of a work, for your own research or study or as permitted under the Copyright Act 1968. You must obtain permission from the copyright owner to use the work for any other purpose. If you believe this copyrighted work is available on the University of Melbourne network in such a way that constitutes copyright infringement, or a breach of an agreed licence or contract, please notify the Copyright Office at copyright-office@unimelb.edu.au Honours thesis 2015 ftumelbourne 2024-05-06T11:37:13Z Cliffs are erosional landforms that migrate slowly inland over time. Sea level rise, as a result of climate change, is predicated to accelerate these rates of erosion. These predictions are based on numerical simulation of cliff systems rather than field observations. In such predictions beaches are seen as a key element in the rate of cliff retreat. The proposed influences on cliffs retreat rates include: beach width and length, sediment size, wave dynamics and lithology. The measurements of these variables, and the thresholds for erosion versus protection, are yet to be tested in the field. Beaches at the base of cliffs can act to protect cliffs, when beach width is extensive enough to buffer between incoming waves and the cliffs. Conversely, when beach width is narrow wave-induced basal erosion is increased by abrasive beach sediments. The aim of this thesis is to examine the variation in headland-embayment morphology along a coastline and develop an understanding of the conditions required for beaches to form within these embayments. Field surveying and sediment samples were taken at various cliffed beaches to help infer sediment source and beach morphology. Marine and terrestrial LiDAR data was used to assess the topographic and bathymetric plan and profile variation for this stretch of coast. From this analysis three broad geomorphic assemblages were categorised in relation to their dominance within an individual embayment, they are; cliffs with beaches, cliffs without beaches and cliffs with rock falls. The field area chosen for the investigation were 61 embayments backed by the Port Campbell Limestone cliffs, in Victoria, Australia. This stretch of coast is microtidal and exposed to high energy swells originating from the Southern Ocean. The Port Campbell Limestone is relatively consistent alongshore, with locally variable cliff top dunes. Embayment morphology varied from highly indented, sheltered bays with alongshore length of 51.6 m to straight, long bays with an alongshore length of 1.52 km. Sediment ... Other/Unknown Material Southern Ocean The University of Melbourne: Digital Repository Southern Ocean |
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The University of Melbourne: Digital Repository |
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ftumelbourne |
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description |
Cliffs are erosional landforms that migrate slowly inland over time. Sea level rise, as a result of climate change, is predicated to accelerate these rates of erosion. These predictions are based on numerical simulation of cliff systems rather than field observations. In such predictions beaches are seen as a key element in the rate of cliff retreat. The proposed influences on cliffs retreat rates include: beach width and length, sediment size, wave dynamics and lithology. The measurements of these variables, and the thresholds for erosion versus protection, are yet to be tested in the field. Beaches at the base of cliffs can act to protect cliffs, when beach width is extensive enough to buffer between incoming waves and the cliffs. Conversely, when beach width is narrow wave-induced basal erosion is increased by abrasive beach sediments. The aim of this thesis is to examine the variation in headland-embayment morphology along a coastline and develop an understanding of the conditions required for beaches to form within these embayments. Field surveying and sediment samples were taken at various cliffed beaches to help infer sediment source and beach morphology. Marine and terrestrial LiDAR data was used to assess the topographic and bathymetric plan and profile variation for this stretch of coast. From this analysis three broad geomorphic assemblages were categorised in relation to their dominance within an individual embayment, they are; cliffs with beaches, cliffs without beaches and cliffs with rock falls. The field area chosen for the investigation were 61 embayments backed by the Port Campbell Limestone cliffs, in Victoria, Australia. This stretch of coast is microtidal and exposed to high energy swells originating from the Southern Ocean. The Port Campbell Limestone is relatively consistent alongshore, with locally variable cliff top dunes. Embayment morphology varied from highly indented, sheltered bays with alongshore length of 51.6 m to straight, long bays with an alongshore length of 1.52 km. Sediment ... |
format |
Other/Unknown Material |
author |
Knox, Harry |
spellingShingle |
Knox, Harry The morphology of beaches at the base of cliffs: a field-study of the Port Campbell Limestone cliffs |
author_facet |
Knox, Harry |
author_sort |
Knox, Harry |
title |
The morphology of beaches at the base of cliffs: a field-study of the Port Campbell Limestone cliffs |
title_short |
The morphology of beaches at the base of cliffs: a field-study of the Port Campbell Limestone cliffs |
title_full |
The morphology of beaches at the base of cliffs: a field-study of the Port Campbell Limestone cliffs |
title_fullStr |
The morphology of beaches at the base of cliffs: a field-study of the Port Campbell Limestone cliffs |
title_full_unstemmed |
The morphology of beaches at the base of cliffs: a field-study of the Port Campbell Limestone cliffs |
title_sort |
morphology of beaches at the base of cliffs: a field-study of the port campbell limestone cliffs |
publishDate |
2015 |
url |
http://hdl.handle.net/11343/230569 |
geographic |
Southern Ocean |
geographic_facet |
Southern Ocean |
genre |
Southern Ocean |
genre_facet |
Southern Ocean |
op_relation |
http://hdl.handle.net/11343/230569 |
op_rights |
Terms and Conditions: Copyright in works deposited in Minerva Access is retained by the copyright owner. You may download, print or save electronic copies of a whole work, or part of a work, for your own research or study or as permitted under the Copyright Act 1968. You must obtain permission from the copyright owner to use the work for any other purpose. If you believe this copyrighted work is available on the University of Melbourne network in such a way that constitutes copyright infringement, or a breach of an agreed licence or contract, please notify the Copyright Office at copyright-office@unimelb.edu.au |
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