Experts are concerned about wetland springs that will feed the proposed Carmichael coal mine in the Galilee Basin. 

New research led by Flinders University is renewing calls to protect the source of water and aquifers that support the ecologically significant Doongmabulla Springs Complex in central Queensland.

The study says these supplies would be put at risk by the proposed Carmichael coal mine in the Galilee Basin.

Work on the Bravus (previously Adani) Carmichael coal mine is progressing, but groundwater scientists have warned that more research is needed to measure and fully understand the aquifer sources that potentially feed the spiritually and environmentally significant springs located near the large inland mine site .

“Even if the springs’ source aquifer is partially dewatered for mining operations, there is a serious threat of permanent damage,” says Flinders University PhD candidate Mr Robin Keegan-Treloar.

“Our study expands on existing water level data, undertaking the most rigorous analysis so far, and even now we cannot definitively identify the source of water to the springs.”

Mr Keegan-Treloar says that without better knowledge of the hydrogeology of the area, the springs are at risk of “irreversible decline.”

“These concerns have been raised in this study, as well as CSIRO and Geoscience Australia studies, about threats to the springs from the Carmichael mine,” he says.

Despite previous warnings, and remaining uncertainties over the effects of nearby mining operations, the mine is still going ahead, says senior author, Flinders University Professor Adrian Werner, from the National Centre for Groundwater Research and Training.

“These findings have important implications given that the Permian Formations will be dewatered by the operation of the nearby Carmichael coal mine,” Professor Werner says.

“Lowering the uncertainty of permanent damage to the springs will require new drilling and seismic studies to adequately identify the hydrogeological regime between the mine site and the springs.”

The research group says the techniques used in the latest study help to identify and quantify conceptual model uncertainties, although further work is needed.

Research is ongoing, with follow-up studies being conducted using water chemistry, geophysics and numerical modelling.

“The latest study [has] important implications given that the Permian Formations will be dewatered by the operation of the nearby mine,” Mr Keegan-Treloar says. 

“Lowering the uncertainty of permanent damage to the springs will require new drilling and seismic studies to adequately identify the hydrogeological regime between the mine site and the springs.”

The study is accessible here.