IMOS - ACORN - South Australia Gulfs HF ocean radar site (South Australia, Australia) - Delayed mode wave

Credit Australia’s Integrated Marine Observing System (IMOS) is enabled by the National Collaborative Research Infrastructure Strategy (NCRIS). It is operated by a consortium of institutions as an unincorporated joint venture, with the University of Tasmania as Lead Agent. Credit The University of W...

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Bibliographic Details
Other Authors: AODN Data Manager (pointOfContact), AODN Data Manager (distributor), Cosoli, Simone (pointOfContact), Data Officer (pointOfContact), Data Officer (distributor), Integrated Marine Observing System (IMOS) (resourceProvider), Oceans Graduate School (OGS), The University of Western Australia (UWA) (hasAssociationWith)
Format: Dataset
Language:unknown
Published: Australian Ocean Data Network
Subjects:
oceans
EDDIES
EARTH SCIENCE
OCEAN CIRCULATION
OCEAN CURRENTS
Oceans | Ocean Circulation | Upwelling
WIND-DRIVEN CIRCULATION
SIGNIFICANT WAVE HEIGHT
OCEAN WAVES
WAVE FREQUENCY
WAVE LENGTH
WAVE PERIOD
WAVE SPEED/DIRECTION
WAVE SPECTRA
SURFACE WINDS
OCEAN WINDS
CORAL REEFS
COASTAL PROCESSES
RADIO WAVE
SPECTRAL/ENGINEERING
SEA STATE
SWELLS
WIND WAVES
IMOS Site | SAG | South Australia Gulfs HF ocean radar site
Marine Features (Australia) | Leeuwin Current
WERA HF Radar | Phased Array
Doppler Frequency
Physical Oceanography
Marine Features (Australia) | Gulf St. Vincent
SA
Marine Features (Australia) | Spencer Gulf
Marine Features (Australia) | Great Australian Bight
SA/WA
Marine Features (Australia) | Kangaroo Island
States
Territories (Australia) | South Australia
Countries | Australia
Marine Features (Australia) | Eyre Peninsula
WERA beam forming HF radar
Significant height of waves on the water body
Direction of waves on the water body
Mean period at spectral first frequency moment of waves on the water body
Direction at spectral maximum of waves on the water body
Period at the peak spectral energy of waves on the water body
Mean period at spectral second frequency moment of waves on the water body
surface current radars
Southern Ocean
Bonney
Flinders
Kangaroo Island
Cape Spencer
Online Access:https://researchdata.edu.au/imos-acorn-south-mode-wave/1330519
Description
Summary:Credit Australia’s Integrated Marine Observing System (IMOS) is enabled by the National Collaborative Research Infrastructure Strategy (NCRIS). It is operated by a consortium of institutions as an unincorporated joint venture, with the University of Tasmania as Lead Agent. Credit The University of Western Australia (UWA) The South Australia Gulfs (SAG) HF ocean radar system covers the area of about 40,000 square kilometres bounded by Kangaroo Island to the east and the Eyre Peninsula to the north. This is a dynamic region where warm water from the remnants of the Leeuwin current is moving from the west, and water with varying density is exchanging with Spencer Gulf and the Gulf of St Vincent. Upwelling events occur from the deep ocean on the south side of the observation area. This is a key ocean area for aquaculture and fishing, and is a major shipping thoroughfare. The data from this HF ocean radar system link the dynamics of the Great Australian Bight to the Bonney Coast and on to Tasmania. Specific research questions identified by the SA Node of IMOS are: What is the detailed connection between shelf currents and the Flinders Current to non-regional influences (e.g. Southern Ocean, WA)? What is the nature of oceanic currents and processes (e.g. wave drift, mixing, eddies) that drive both winter and summer cross and along shelf exchange including the summertime upwelling systems and flushing of the gulfs? How does the ocean circulation, wave drift, eddies and environmental variability affect the distribution of sediments, nutrients, the production of lower trophic levels (phytoplankton and zooplankton), the dispersal of larvae that underpin productive fisheries in the region and the effects of environment on aquaculture The SAG HF ocean radar is a WERA phased array system with 16-element receive arrays located at Cape Wiles (34.943 S, 135.681 E) and Cape Spencer (35.294 S, 136.879 E). These radars operate at a frequency of 8.512 MHz, with a bandwidth of 33 KHz and a maximum range of 200 Km. Within the HF ...

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