| Apr 29, 2026 |
New ‘gold standard’ framework identifies the best methods to extract six common microplastic types from different soil textures, helping protect farmland and health.
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(Nanowerk News) A new ‘gold standard’ for soil analysis and microplastic extraction has been developed at the University of New England (UNE), unlocking vital capabilities to safeguard agricultural soils and protect human health.
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Led by PhD candidate Nivetha Sivarajah, the research team developed a new multi-criteria framework to identify the most effective method to extract six common plastic types from different soil textures (Soil Advances, “A novel multi-criteria decision analysis approach to advance standardisation of microplastic extraction from agricultural soils”).
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Integrating factors such as recovery, spectral integrity, extraction time, cost, and environmental impact, the method identified is affordable and accessible, enabling adoption by scientists anywhere in the world.
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“We don’t currently have a standard method for this, so once this process has been adopted, it can be used to better understand the true extent of microplastics pollution in agricultural soil,” said Nivetha.
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Agricultural soils are extensively contaminated by plastics from mulching films, biosolids, sewage sludge, shade nets, and waste that degrade over time to form microplastics.
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This poses a significant threat to food security, soil health, crop yields, and the contamination of groundwater.
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“This has significant environmental impact and can transfer through the food chain and threaten human health,” said Nivetha.
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Nivetha’s optimised extraction method uses a sequence of organic matter digestion followed by density separation, achieving a recovery of more than 92 per cent.
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The process is fast, low-cost at roughly A$5.47 per sample, and uses reagents with a low environmental impact.
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“It was important to consider cost in our method, as the cheaper it is, the more likely it will be adopted, which is an especially important consideration in low-socioeconomic regions of the world.”
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While this study provides the foundation for scientists to develop global standards, Nivetha is already looking to the next phase of her research.
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She is currently applying her method to soil samples collected in Sri Lanka to study the abundance of microplastics in Sri Lankan paddy fields. Nivetha will also study how microplastics migrate through different soil layers, particularly in areas using municipal solid waste compost.
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“I am excited to continue working in the UNE Pollution Science Research Group and to put this method to the test in the real world and contribute to groundbreaking research that is protecting human health, food security, and the planet.”
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