Photo caption:听Microplastics found in sewage sludge.
A groundbreaking study by Te Whare W膩nanga o Waitaha | 茄子视频app官网 (UC) and the Institute of Environmental Science and Research (ESR) has uncovered alarming levels of microplastic contamination in organic wastes and composts applied to land in New Zealand.
The research, (15 January) in听Water Emerging Contaminants and Nanoplastics, highlights the potential for thousands of microplastic particles per kilogram of organic waste to enter productive soils.
UC PhD candidate Helena Ruffell, who led the study as part of her thesis, analysed various organic wastes routinely used as fertilisers and soil conditioners or in land remediation. These included biosolids (sewage sludge), vermicompost (worm composting), bulk compost (from kerbside collections, large-scale industrial facilities, and small-scale decentralised facilities), and bagged composts from garden centres across New Zealand.
The study detected between 1,100 and 2,700 microplastic particles per kilogram of organic waste.
鈥淥rganic wastes are a valuable source of carbon and nutrients to our soils, and diverting these wastes from landfill by applying them onto land is a crucial measure to reduce greenhouse gas emissions and promote the circular economy,鈥 says Ruffell, who is due to receive her doctorate in UC鈥檚 Autumn graduation week in a few months.
鈥淥ur findings indicate that these contaminants in organic wastes originate from everyday products such as food packaging, health and beauty products, synthetic textiles, and household goods. These products shed and fragment microplastics, which can then enter wastewater treatment plants and ultimately be released into the environment.鈥
The study also revealed that composts are contaminated with microplastics due to improper disposal of plastics and confusion around biodegradable or compostable plastics.
Despite efforts by councils to prevent plastic contamination in kerbside organics collections, conventional and biodegradable plastics such as polylactic acid (PLA) and polybutylene adipate terephthalate (PBAT) were found in mature composts. These plastics had not effectively broken down during the composting process and are likely to accumulate in soils over time.
鈥淓ven biodegradable plastics are not breaking down as expected, leading to their accumulation in soils. This raises concerns about the long-term impact of microplastics on soil health and productivity,鈥 Ruffell says.
鈥淲e urgently need to reduce the use of plastics to prevent microplastic contamination of these valuable organic wastes.鈥
The study, co-supervised by UC Environmental Science professors and , and ESR Science Leader Dr Olga Pantos, underscores the need for further investigation into the potential adverse effects of microplastics in productive soils and calls for improved waste management practices to mitigate a growing environmental issue, Ruffell says.
This research was funded by the Ministry of Business, Innovation and Employment Endeavour Research Programmes Fund as part of the Aotearoa Impacts and Mitigation of Microplastics (AIM2) study.
Examples of microplastics detected in organic wastes which are of identifiable origin: A) Polyester glitter; B) polyurethane kitchen sponge; C) polyethylene microbead; D, E, F) acrylic multicoloured films from product packaging.
Sustainable Development Goal (SDG) 11 - Sustainable Cities and Communities.
