Technical features
The project involves the production of coal seam natural gas in the Surat and Bowen basins in eastern Queensland, which surround the regional centres of Roma and Fairview. Gas will be piped (520 km) to a gas liquefaction plant at Hamilton Point West on Curtis Island nearEnvironmental Impact
1 Dredging
Gladstone Harbour is a natural deep water port off the coast of Queensland (Port of Gladstone - Wikipedia, n.d.), while Citrus island does not possess these natural deep waters. In order for this port to be viable, Santos needs to dredge out massive amounts of the sea floor (n.d.). Dredging involves removing sediment from the sea floor and moving it to a different location. According to original Santos plans, over 60,750 m3 of soil is to be dredged around five berths (n.d.). The commonwealth government has approved the dumping around the harbour mouth, which is about 1 km away from the Great Barrier Reef exclusion zone (Hunt, 2011). This dredging is causing massive problems around the Gladstone and Great Barrier Reef area.1.1 Water Quality
In 2011 the port of Gladstone was forced to ban all fishing for three weeks because masses of dead and injured fishes, turtles and dugongs were found within the harbour (Dredging and Shipping Near the Great Barrier Reef, n.d.). This incident was never fully investigated, but the dredging within the harbour is the only explainable answer (Williams, 2011). Decreases in prawns, crabs and fish were also noted around the harbour. This decline is caused by a combination of increased disease and mortality rates (caused by toxins in the water) and movement of wildlife away from loud noises and low water quality (Landos, 2012).=1.1.1 Turbidity
= Data revealed from the Port of Gladstone's website shows that the dredging around Citrus island has exceeded the permit conditions for water turbidity (Landos, 2012). Dumping sediment so close to the Great Barrier Reef have been shown to have an adverse effect on the coral (Landos, 2012). A study carried out by Nature Magazine (Jones et al., 2020) revealed that as the water turbidity went up, the corals suffered more, even leading to partial coral death. The experiment was carried out over 42 days on multiple specimens, all exposed to different amounts of turbidity. The results showed that high turbidity could cause 2 – 10% partial coral death, loss of colour, including full coral bleaching, and a definite loss of lipids in all samples (Jones et al., 2020). Dredging this close to the great barrier reef and for the same amount of time would have heavily affected not only the coral but also the animals that live in the area.1.2 Toxicity of sediments
It's not only the turbidity of the water that's affecting the reef but also the toxic substances in the sediment. In the opinion of the FFVS(Future Fisheries Veterinary Service) (Landos, 2012), the resuspension of sediments in Gladstone harbour, especially PASS(Potential Acid Sulphate Soil) (which were present in large areas of dredged sediment in Gladstone harbour), have caused the release of large amounts of dissolved metals (including copper, zinc and aluminium) into the water (Landos, 2012). Comparing these values to historical data, it has been concluded that these elevations are as a direct cause of the dredging. These metals, especially PASS, affect marine wildlife in major ways (Landos, 2012).=1.2.1 Physiological Effects
= These elements in large amounts in fish are known to inactivate enzymes by binding to amino, imino and sulfhydryl proteins or may damage cells by disrupting metabolic pathways (Landos, 2012). These metals have been shown to have a suppressive effect on the immune system of marine wildlife, which increases their susceptibility to diseases and parasitic infections (Landos, 2012). Exposure to metallic contaminants have also been linked to a long-term impairment of olfaction (the ability to smell). These affect anti-predator behaviour and responses to alarm cues in fish (Landos, 2012). This exposure has also been shown to cause irreparable damage to the gills and the surrounding structure (Landos, 2012).=1.2.2 Changes in behaviour
= These metals in Gladstone harbour have been shown to negatively affect the behaviour of fish, including predator avoidance, reproduction, and social behaviour (Landos, 2012).1.3 Effect of Dredging sounds on fish
Commonly dredging operations sound levels range from 111 to 170 dB (Wenger et al., 2017). This noise level has been shown to affect fishes in numerous ways, including behavioural changes, inability to hear points of interest, stress and phycological reactions, hearing loss and damage to auditory tissue, physical cell damage and possible mortality, impairment of the lateral line system (a sensory system that lets fish detect weak water motions and pressure gradients) and effects eggs and larvae (Wenger et al., 2017).1.4. Physical Loss of Habitat
The ecological importance of nurseries for fish and crabs and feeding grounds for dugongs and turtles have guaranteed their protection from dredging. But masses of seagrass, mangroves and mudflats didn't have the same fate (Landos, 2012). Dredging and removal of these areas have impacted the sustainability of fisheries (where a fish breeds) around the harbour. Because coastal ecosystems are interconnected, a loss in fishery production is expected when removing large swaths of habitat (Connolly, et al., 2006). This is exactly what happened in Gladstone harbour, an effect that is highly likely to affect areas well outside of Gladstone harbour (Landos, 2012). This problem is made significantly worse by the fact that Gladstone port has the only significant area of seagrass for 170 km to the north and south (Connolly, et al., 2006). Even after the dredging has concluded it is unlikely that fishery production will ever recover.2. Increased shipping traffic around the great barrier reef
Each year more than 11,000 ships traverse the waters around the Great Barrier Reef (Dredging and Shipping Near the Great Barrier Reef, n.d.). 350 of whom are bulk LNG carriers departing Gladstone (Record exports of LNG leave Gladstone in 2020–21, 2021). A singular ship traversing the great barrier reef causes only low-level damage, but as the shipping volume increases, these damages can accumulate significantly over time. Examples of these include damage from anchors and propellors, the introduction of invasive species, greenhouse gas and nitrogen oxide emission, and contamination from coal dust, sewage, and compounds, including oil and heavy metals (Shipping in the Great Barrier Reef: the miners' highway, 2022). This extra number of ships is increasing the likelihood of strikes on dugongs, turtles, whales, and other mammals. While also exposing them to excessive noise and light pollution (see 1.3) (Shipping in the Great Barrier Reef: the miners' highway, 2022).Project Completion and Operation
GLNG exported its first load of LNG on 16 October 2015. Queensland PremierPartners
It is being developed by the Australian energy companySee also
*References
{{reflist Santos.com. n.d. nlineAvailable at:External links