Bank erosion of an incised upland channel by subaerial processes: Tasmania, Australia

Bank erosion of an incised upland channel by subaerial processes: Tasmania, Australia

The headwaters of many rivers are characterized by gullies and incised streams that generate significant volumes of sediment and degrade downstream water quality. These systems are characterized by harsh climates, ephemeral flows that do not reach bank top, and bare cohesive banks of clay and weathe...

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Bibliographic Details
Published in:Earth surface processes and landforms Vol. 25; no. 10; pp. 1085 - 1101
Main Authors: Prosser, Ian P., Hughes, Andrew O., Rutherfurd, Ian D.
Format: Journal Article
Language:English
Published: Chichester, UK John Wiley & Sons, Ltd 01-09-2000
Wiley
Subjects:
Australia, Tasmania
bank erosion
Bgi / Prodig
desiccation
Earth sciences
Earth, ocean, space
erosion rates
Exact sciences and technology
Fluvial forms and processes
Geomorphology
Geomorphology, landform evolution
needle-ice
Physical geography
Surficial geology
Australia
Tasmania
Tasmania Australia
Bank erosion
Correlation
Flood
Seasonal variation
Ecosystem
Water quality
Turbidity
Plant canopy
Stream
Spatial variation
Preventive measure
desiccation
canals
River banks
Australasia
erosion
ice
erosion rates
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Summary:The headwaters of many rivers are characterized by gullies and incised streams that generate significant volumes of sediment and degrade downstream water quality. These systems are characterized by harsh climates, ephemeral flows that do not reach bank top, and bare cohesive banks of clay and weathered bedrock. We investigated the rates and processes of bank erosion in an incised canal that has such characteristics. Detailed measurements of bank position were made over two years with a purpose‐built groundprofiler and photo‐electronic erosion pins (PEEPs). Stage height and turbidity were also monitored. The bare banks eroded at 13 ± 2 mm a−1. Erosion is controlled by subaerial processes that loosen bank material. Observations show that needle‐ice growth is important in winter and desiccation of clays predominates in summer. Flows are unable to erode firm cohesive clays from the banks, and erosion is generally limited by the availability of loosened material. This produces strong hysteresis in turbidity during events. Peak turbidity is related to the number of days with low flow between events, and not peak stage. Rehabilitation with a moderate cover of grass is able to prevent bank erosion by limiting the subaerial erosion processes. Projections of current erosion suggest that without vegetation cover the banks are unlikely to stabilize for many years. Copyright © 2000 John Wiley & Sons, Ltd.
Bibliography:Land and Water Resources Research and Development Corporation
ArticleID:ESP118
istex:774E3AEA5634DC3F3A07DD110A3D151E79F7AF76
ark:/67375/WNG-4MP39L48-J
Tasmanian Hydro-Electric Commission
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0197-9337
1096-9837
DOI:10.1002/1096-9837(200009)25:10<1085::AID-ESP118>3.0.CO;2-K