Curtin research into the ability of native flora to re-establish on post-mining landforms has identified a small portion of species that are able to thrive in challenging growing conditions, giving hope for more effective mine site rehabilitation in the future.
The study, published in international journal Plant and Soil, examined the growth of almost 50 species of native plants on mine tailings generated by processing iron ore to determine how they fared compared to plants grown in natural topsoils.
Lead researcher Dr Adam Cross, from the ARC Centre for Mine Site Restoration (CMSR) in 麻豆直播鈥檚 School of Molecular and Life Sciences, said the study aimed to identify which species of native plant could be used to help rehabilitate natural ecosystems impacted by mining.
鈥淭he perception is that mine site rehabilitation and restoration is easily achieved and diverse plant communities can be established on most degraded areas by simply spreading seeds or planting seedlings and waiting for them to grow,鈥 Dr Cross said.
鈥淗owever, our study found the majority of tested plant species failed to establish or grew very poorly in mine tailings, suggesting that up to 90 per cent of local native plants could struggle to establish on these post-mining landforms without some alteration to the soil.
鈥淢any plants adapted to WA鈥檚 old and acidic soils simply do not possess the physiological capacity to grow on alkaline material like these mine tailings, which has implications for which plant communities can be established in restoration.鈥
Paper co-author CMSR Director John Curtin Distinguished Professor Kingsley Dixon said the several native species identified as performing well were predominantly those with specific strategies for obtaining nutrients like nitrogen and phosphorus from the nutrient-poor soils of regional WA.
鈥淩ehabilitation and restoration on post-mining soil is a complex task and requires greater investment in research and longer timeframes than usually allowed in order to be successful,鈥 Professor Dixon said.
鈥淭his study, which was funded by CMSR鈥檚 industry partners, is the first time that research has demonstrated that a local native plant community can actually grow in alkaline mine tailings.
鈥淥ur research demonstrates that WA industry is going above and beyond in trying to find methods to meet their regulatory requirements.鈥
The full paper, 鈥Nitrogen limitation and calcifuge plant strategies constrain the establishment of native vegetation on magnetite mine tailings鈥 can be viewed online .
