A study of metal contamination in south-west Tasmania by The ANU has found lakes in the Tasmanian Wilderness World Heritage Area (TWWHA) are contaminated with dangerous metals, and at levels among the highest in the world.
ANU researchers studied airborne contamination for the first time in Tasmania and found metal contaminants travelled 130km down-wind of historical mining sites in Queenstown and Rosebery.
In Tasmania, dangerous levels of lead, copper, arsenic and cadmium were found in all six lakes in the TWWHA region with some exceeding the highest allowable levels in sediment guidelines for Australia and New Zealand.
Lead researcher Dr Larissa Schneider and Professor Simon Haberle from the Archaeology and Natural History program, said the high levels of metal concentrations may be cause for health concerns.
“This is a very severe contamination and it’s very likely that the health of the local biota; bacteria, algae, fish and other organisms is being affected, but as this aspect hasn’t been studied, we have no way of knowing,” said Dr Schneider.
“As we know, concentrations of contaminants increase as they travel up the food chain so this has implications for anyone who consumes fish from these areas”.
Dr Schneider said the Tasmanian contamination is on par with that in the Kurang River in Pakistan, contaminated by mining and the Shur River in Iran, subject to heavy metal pollution from non-mining activities such as waste dumping.
“I was very surprised by the high concentration results. When we compared the confirmed results with worldwide sites, we found that Tasmania’s metal concentration levels were one of the highest ever reported,” said Dr Schneider.
“We tested a number of metals and metalloids including selenium where a study in the US proved that lower concentrations than the ones found in Tasmania had affected the ability of fish to reproduce.
“It’s even worse with Mercury and Lead which cause deformities in the offspring of affected fish. Some elements can also be carcinogenic so all this could be happening in Tasmania in an area we think is safe because of its world heritage listing,” said Dr Schneider.
“In 1973, Tasmania did very well by being one of the first Australian states to legislate an Environmental Protection Act, but the government of the day exempted the mining companies from the rules so they continued to deposit waste into the rivers,” she said.
Crucial to obtaining these results, was a new model used to help understand the interplay of climate factors on airborne metal distribution.
The Hybrid Single Particle Lagrangian Integrated Trajectory (HYSPLIT) predicted how far the contamination travelled and sediment samples taken from places 130km away from the mining sites confirmed the modelling.
“Our research established the extent of the airborne contamination and how severe it is. We now need more knowledge about the chemical forms of the elements to assess exposure and the health risks they may pose to organisms,” said Dr Schneider.
“We should also study the organisms to assess stress levels caused by the high metal concentrations.
“The big concern is that the legacy of practices carried out from 1893 until 1994 are still having a negative impact on the environment today and no one is taking responsibility for it”.
Professor Haberle said sediment pollution from heavy metals is a worldwide problem and considered a serious threat to aquatic ecosystems because of their toxicity, ubiquitous and persistent nature. They are also non-biodegradable and bio-accumulate in food chains.
Dr Schneider’s research is published in Science of the Total Environment: