Ions Help Forecast Toxic Mine Leakage

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Ions Help Forecast Toxic Mine Leakage

CURTIN University & Northern Territory-based Researchers Have Found Elevated Electrical Conductivity in Creek Water to be a Reliable Predictor of Toxic Seepage

"It's a common problem in mine seepage to have a very high concentration of various ions," Curtin Associate Professor Marte Monique Gagnon says.

"When there is a discharge of the seepage into the natural creeks it can get to be a problem."

She says this is of particular concern in the northern tropical late wet and early dry seasons, when biodiversity is high but the water flow drops off.

This leads to a greater ion concentration in the water, which can then lead to a loss of biodiversity.

A/Prof Gagnon says an east Kimberley nickel mine sought advice on how to identify toxic effluents to help prevent them seeping into the environment.

Curtin expert Simon Lunn conducted a series ofexperimentsto determine predictors of such toxicity.

These predictors can be used to monitor water in a nearby creek to indicate any remedial action.

These involved standardised toxicity tests on two tropical freshwater taxa: algae of the Chlorella genus and the cladoceran Moinodaphnia macleayi.

"We knew from previous research that the seepage was quite high in various ions," A/Prof Gagnon says.

"And we knew there was not a lot of heavy metals in there so we said 'now which salt could be responsible for it?".

Process of elimination determines best predictor

She says they performed an exclusion protocol whereby they synthesised water containing similar levels of the salts present in the mine seepage, but excluding one at a time.

"All of those ions might interact together and we don't always know how they interact in the nature, in the water and in the cells of the organisms," she says.

"So we excluded them one at a time and we came to the conclusion that it was most likely the sulfate that was identified as a predictor of the toxicity.

Source: Science Network Water Australia

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