A Spatio-Temporal Assessment of Landcover and Coastal Changes at Wandandian Delta System, Southeastern Australia

A Spatio-Temporal Assessment of Landcover and Coastal Changes at Wandandian Delta System, Southeastern Australia

Large numbers of people live along and depend upon the world’s coastal resources. Human modifications of the coastal zone, in combination with climate induced environmental changes, have had a major effect on the natural ecological systems. GIS analysis of remote sensed data, combined with fieldwork...

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Main Authors: Ali K. M. Al-Nasrawi, Carl A. Hopley, Sarah M. Hamylton, Brian G. Jones
Format: Article
Language:English
Published: MDPI AG 2017-11-01
Series:Journal of Marine Science and Engineering
Subjects:
anthropogenic modifications
eco-geomorphology
remote sensing
GIS-modelling
sediment progradation
Online Access:https://www.mdpi.com/2077-1312/5/4/55
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spelling doaj-80ac1b708efd40b98e13b56f1cfacebf2021-04-02T15:14:45ZengMDPI AGJournal of Marine Science and Engineering2077-13122017-11-01545510.3390/jmse5040055jmse5040055A Spatio-Temporal Assessment of Landcover and Coastal Changes at Wandandian Delta System, Southeastern AustraliaAli K. M. Al-Nasrawi0Carl A. Hopley1Sarah M. Hamylton2Brian G. Jones3School of Earth and Environmental Sciences, University of Wollongong, Wollongong NSW 2522, AustraliaSchool of Earth and Environmental Sciences, University of Wollongong, Wollongong NSW 2522, AustraliaSchool of Earth and Environmental Sciences, University of Wollongong, Wollongong NSW 2522, AustraliaSchool of Earth and Environmental Sciences, University of Wollongong, Wollongong NSW 2522, AustraliaLarge numbers of people live along and depend upon the world’s coastal resources. Human modifications of the coastal zone, in combination with climate induced environmental changes, have had a major effect on the natural ecological systems. GIS analysis of remote sensed data, combined with fieldwork and laboratory tests, can be used to determine the resultant eco-geomorphic changes that need to be managed sustainably on a worldwide scale. Modelling the eco-geomorphic dynamics between 1949 and 2016 on the Wandandian Creek delta (southeastern NSW, Australia) provides a case study of management options for such coastal resources. Results from the Wandandian Creek delta show that sand/silt sediment derived from the partially (22%) modified terrestrial catchment has prograded into the wave-dominated St. Georges Basin where it is impacted by nearshore processes. Clear spatio-temporal growth of the areal extent and elevation of the deltaic levees and sandspits, with their associated mangroves and saltmarshes, has occurred over the past 65 years. Although the growth rate has fluctuated during the study period, due to flood events in 1974, 1990s and 2010, the overall subaerial and subaqueous delta area has had an average growth of 4168 m2 annually with the shoreline extending 1.451 m/year on average. This geomorphic growth has stabilised the estuarine deltaic habitats with high proportions of nutrients and organic matter, particularly within saltmarsh, mangrove, Casuarina/Juncus and other mixed native plant areas. This research shows the importance of analysing morphological changes observed on the delta that can be related to both anthropogenic modifications and natural processes to the catchment and thus should be used in the development of catchment and coastal management plans.https://www.mdpi.com/2077-1312/5/4/55anthropogenic modificationseco-geomorphologyremote sensingGIS-modellingsediment progradation
collection DOAJ
language English
format Article
sources DOAJ
author Ali K. M. Al-Nasrawi
Carl A. Hopley
Sarah M. Hamylton
Brian G. Jones
spellingShingle Ali K. M. Al-Nasrawi
Carl A. Hopley
Sarah M. Hamylton
Brian G. Jones
A Spatio-Temporal Assessment of Landcover and Coastal Changes at Wandandian Delta System, Southeastern Australia
Journal of Marine Science and Engineering
anthropogenic modifications
eco-geomorphology
remote sensing
GIS-modelling
sediment progradation
author_facet Ali K. M. Al-Nasrawi
Carl A. Hopley
Sarah M. Hamylton
Brian G. Jones
author_sort Ali K. M. Al-Nasrawi
title A Spatio-Temporal Assessment of Landcover and Coastal Changes at Wandandian Delta System, Southeastern Australia
title_short A Spatio-Temporal Assessment of Landcover and Coastal Changes at Wandandian Delta System, Southeastern Australia
title_full A Spatio-Temporal Assessment of Landcover and Coastal Changes at Wandandian Delta System, Southeastern Australia
title_fullStr A Spatio-Temporal Assessment of Landcover and Coastal Changes at Wandandian Delta System, Southeastern Australia
title_full_unstemmed A Spatio-Temporal Assessment of Landcover and Coastal Changes at Wandandian Delta System, Southeastern Australia
title_sort spatio-temporal assessment of landcover and coastal changes at wandandian delta system, southeastern australia
publisher MDPI AG
series Journal of Marine Science and Engineering
issn 2077-1312
publishDate 2017-11-01
description Large numbers of people live along and depend upon the world’s coastal resources. Human modifications of the coastal zone, in combination with climate induced environmental changes, have had a major effect on the natural ecological systems. GIS analysis of remote sensed data, combined with fieldwork and laboratory tests, can be used to determine the resultant eco-geomorphic changes that need to be managed sustainably on a worldwide scale. Modelling the eco-geomorphic dynamics between 1949 and 2016 on the Wandandian Creek delta (southeastern NSW, Australia) provides a case study of management options for such coastal resources. Results from the Wandandian Creek delta show that sand/silt sediment derived from the partially (22%) modified terrestrial catchment has prograded into the wave-dominated St. Georges Basin where it is impacted by nearshore processes. Clear spatio-temporal growth of the areal extent and elevation of the deltaic levees and sandspits, with their associated mangroves and saltmarshes, has occurred over the past 65 years. Although the growth rate has fluctuated during the study period, due to flood events in 1974, 1990s and 2010, the overall subaerial and subaqueous delta area has had an average growth of 4168 m2 annually with the shoreline extending 1.451 m/year on average. This geomorphic growth has stabilised the estuarine deltaic habitats with high proportions of nutrients and organic matter, particularly within saltmarsh, mangrove, Casuarina/Juncus and other mixed native plant areas. This research shows the importance of analysing morphological changes observed on the delta that can be related to both anthropogenic modifications and natural processes to the catchment and thus should be used in the development of catchment and coastal management plans.
topic anthropogenic modifications
eco-geomorphology
remote sensing
GIS-modelling
sediment progradation
url https://www.mdpi.com/2077-1312/5/4/55
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