Salinity at 2.35m, 5.35m and 18m depth (GBR1)
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When using this visualisation, please cite: Lawrey, E., Lafond, G., Johnston, J., & Hammerton, M. (2025). eReefs visualisation suite - pre rendered animations and maps (AIMS, Source: CSIRO) (Version 1). eAtlas. https://doi.org/10.26274/NHYW-4C74
Note: The GBR1 and GBR4 models (including hydro, river tracer and BGC) are no longer updated in near-real-time. New model outputs may be added in the future.
This page shows salinity at different depths on the Great Barrier Reef based on the 1km eReefs Hydrodynamic model.
Salinity at different depths
The salinity of normal ocean water is approximately 35 PSU. As freshwater is mixed with the ocean water the salinity drops, with pure water having a PSU of zero. This product highlights that, absent forced mixing from ocean current upwelling (such as by cyclones), lower salinity water floats to the surface (represented on this page by the 2.35m depth).
Interesting events
Source data
The videos/images on this page are based on the 1km eReefs Hydrodynamic model (v2.0) of the Great Barrier Reef. The raw data is available from NCI THREDDS server (hourly) and the aggregate data from the AIMS eReefs THREDDS server (daily, monthly, yearly and overall). These map layers are also available for inspection in the eReefs Data Explorer.
Data coverage
The data on this page may not reflect the most current conditions, as the GBR1 and GBR4 model runs are no longer updated on a regular basis.
To browse the latest available model data, refer to the NCI THREDDS server.
Erratum
From 28 Dec 2014 - 29 Dec 2014 and from 1 Dec - 10 Dec 2021, the forcing data for the GBR1 eReefs model was incorrect due to a process failure while extracting the relevant ACCESS data. This resulted in static tides and winds during this period, leading to incorrect model outputs during Dec 2014 and 2021, with some carry over error into Jan 2022. This forcing error led to a decrease in water mixing resulting in the temperature building up several degrees hotter than it should and to the flood plumes from the Fitzroy and Burnett moving in the wrong direction.
CSIRO are correcting this problem by re-running the model from Dec 2021 for several months to replace this section of the data. This warning will be updated when this change has been made.