Protecting our coastal environments
Coastal zonesÌýcover a diverse range of coastal ecosystems within marine, estuarine, and freshwater environments. These zonesÌýare some of the most heavily populated and visited areas on the planet and they are also some of the most threatened environments. Coastal zonesÌýare critically important not only to the people who live there but toÌýthe health of the planet.
A changing climate, warmer waters, rising sea levels, tropical cyclones, and coastal erosion are just some of the elements impacting coastal communities worldwide and transforming coastal environments. Coastal hazards such as storm events with associated storm surges are increasing in frequency and intensity, as are marine heatwaves that devastate coral reefs. Human activities like land reclamation, overfishing, dredging, and the construction of shipping ports are also responsible for coastal pollutionÌýand degradation. The potential coastal impacts are varied and can include damage toÌýestuarine andÌýmarine environments and a loss of coastal biodiversity, or erosion—causing permanent changes to the coastline.
Associated schools, institutes & centres
Impact
Researchers at 91³ÉÈ˰涶Òôare playing a vital role in developing strategies to manage coastal changes and protect coastal systems for future generations. Our research focuses on the observation and numerical modelling of coastalÌýenvironmentsÌýand sea-level changesÌýdue to the impacts of climate change, anthropogenic interventionsÌýandÌýmesoscale atmospheric modelling of landfalling tropical cyclones. This research supports sustainable development and improves the management of coastal zones both in Australia and worldwide.
Our research is conducted through the following research group:
Our research covers:
- Coastal Oceanography – utilising cutting-edge technologies to explore the interactions of marine ecosystems and common environmental stressors within estuarine and coastal waters.
- Coastal and marine natural resource management – developing a scientific and technical understanding of natural resources and marine ecology to influence the policies and practices responsible for protecting and optimising these environmental assets.Ìý
- Remote sensing and Geographical Information Systems (GIS) - utilising computer-based tools and sensors to map and analyse the Earth’s surface to assist in the sustainable management of natural resources and address the threats of climate change.
Our researchers
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We work closely with theÌýÌýand several other Chinese partners in collaborative research on coastal oceanography and management. The 91³ÉÈ˰涶Òôcampus and several faculties of UNSW in Sydney contribute to theÌý.
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DS Byun, XH Wang and PE Holloway, 2004,Ìý, Korea. Estuarine, Coastal and Shelf Science 59 (2), 185-196Ìý
D Song, XH Wang, X Zhu and X Bao, 2013,Ìý. Estuarine, Coastal and Shelf Science 133, 147-160Ìý
XH Wang and N Pinardi, 2002,Ìý. Journal of Geophysical Research: Oceans 107 (C12), 18-1–18-23Ìý
XH Wang, 2002,Ìý. Journal of Physical Oceanography 32 (11), 3113-3131Ìý
F Zhang, XH Wang, PALD Nunes and C Ma, 2015,ÌýÌýEcosystem Services 11, 106-114Ìý
G. D. Gao, X. H. Wang, D. Song, X. Bao, B. S. Yin, D. Z. Yang, Y. Ding, H. Li, F. Hou, Z. Ren, 2018,Ìý, Journal of Physical OceanographyÌý
Z. Huang and X. H. Wang, 2019,Ìý. Remote Sensing of Environment. 227, 90-109Ìý
I. Jalón-Rojas, X.H. Wang and E.ÌýFredj, 2019,Ìý, Marine Pollution Bulletin, 141, 256-272.Ìý
X. H. Wang, Y. X. Gao, Q. Wang, T. He, W. Guan and F. Chai, 2019, Recent Development in Coastal Oceanography – Physics, Biology and their Interactions. Encyclopedia of Water: Science, Technology, and Society. ISBN: 978-1-119-30075-5, John Wiley & SonsÌý
Yue Ma, Nan Xu, Zhen Liu,ÌýBishengÌýYang,ÌýFanlinÌýYang, Xiao Hua Wang, Song Li, 2020,Ìý. Remote Sensing of Environment
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- Determining and understanding the impact of regional climate on estuarine physical processes under the influence of climate change on the east coast of AustraliaÌý
- On the East Australian Current Encroachment: Remote Sensing, Quantitative Mapping and Spatio-temporal VariabilityÌý
- Downscale modelling of a macro-tidal estuary under climatic and anthropogenic scenarios: Where is Darwin Harbour headingÌý
- Estuarine circulation and sediment transport during cyclone induced storm surge in the Ganges-Brahmaputra-Meghna deltaÌý
- Development of a coupled catchment-ocean model for sediment transport in the coastal oceansÌý
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- Wenjun Zhu
- Marin Akter
- Panpan Lu
- Thi Thuy Nguyen
- Nazeat Ameen Iqra
- Numan Al Kibriya
- Phuong Lan Le
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- Successfully produced numerical simulations of Darwin Harbour which indicate that if the mangroves and tidal flats are reclaimed, the total sediment flux could be orientated reversely from seaward to landward causing increased harbour siltation.
- Successfully developed marine microplastic tracking modelÌýTrackMPD. TheÌýmodelÌýtracked and predicted the dispersion of lost cargo debris due to the Port Stephens shipping container spill in May 2018.Ìý
- Successfully produced numerical simulations of Darwin Harbour which indicate that if the mangroves and tidal flats are reclaimed, the total sediment flux could be orientated reversely from seaward to landward causing increased harbour siltation.