Sand boils caused by groundwater discharges affect beach stability, yet knowledge of these damaging underground erosions is largely misunderstood. 

Researchers at Flinders University’s College of Science and Engineering have been conducting tests to provide a better understanding of sand boil formation mechanisms, with particular relevance to those found in intertidal zones. 

Sand boils occur where groundwater discharges to the land surface under sufficient hydraulic gradient to cause internal erosion and the upward transport of particles, and new research has identified better ways to identify and measure them.

“The effect of sand layer thickness and the implications of driving head fluctuations on the formation and reformation of sand boils have not been explored previously – and we found significant differences to existing theories,” says Dr Amir Jazayeri from Flinders University.

“A proper understanding of sand boil processes is essential in evaluating a wide range of geomechanical and sediment transport situations under which groundwater seepage occurs, such as the effects of groundwater discharge on beach stability.”

To perform this research, laboratory experiments examined sand-depth and head-change effects on sand boil behaviour in a sand column apparatus (0.28 m × 0.28 m × 0.60 m) designed and constructed at Flinders University’s College of Science and Engineering workshop.

“Our research focused on two key knowledge gaps in the current understanding of sand boil formation, being the effect of sand layer thickness on sand boil formation and the reformation of sand boils under variable driving head conditions,” says Professor Adrian Werner.

The researchers found that the critical hydraulic gradient is lower for sand boil re-emergence under fluctuating head conditions. 

Therefore, sand boils are more likely to reappear in the same location within the beach even though they tend to come and go under natural conditions.

“The contribution of sand boils to the erosion that occurs along Adelaide’s beaches is likely hard to avoid – sand boils are probably here to stay,” the researchers say. 

“It’s a strong start, but these results highlight the need for further investigation to improve the existing theory to account for these effects.”

The study is accessible here.