Abstract
Microplastics (MPs) are emerging persistent contaminants in the terrestrial subsurface, and evidence has emerged for significant effects of MPs on the biological and ecosystem functions of soils. Main MP sources include land spreading of sewage sludge and biowaste composts, plastic mulching film used in horticultural fields, waste water irrigation and leachate from the landfills, among others. This updated state-of-the-art review paper describes recent experimental and numerical research and developments in understanding the accumulation and fate and effects of MPs in the soil environment (focusing on their storage, degradation, transportation, leaching to groundwater etc.), followed by mitigation and bioremediation measures, including MP-eating soil bacteria and fungi and the best management practices for reducing MP pollution of soil. Other areas covered are the combined effects of MPs and various other environmental contaminants (heavy metals, organic pollutants and antibiotics) in soil ecosystems and the standardisation of methods for detection, quantification and characterisation of MPs in soils, which is critical for MP research. The paper concludes by identifying knowledge gaps and presents recommendations on prioritised research needs.
Highlights
Pollution due to microplastics (MPs) is listed by the UN Environmental Programme (UNEP, 2014) as one of the top ten environmental issues due to their (a) presence in, and harmful impacts on, aquatic and terrestrial ecosystems and (b) action as a transport vector for other potential pollutants, including human pathogens, organic contaminants and heavy metals (Qi et al., 2020)
Numerous studies on the deleterious effect of MPs have been presented for the aquatic environment, much less is known on the fate, transport and harmful impacts of MPs in terrestrial ecosystems
These authors hypothesised that the MPs found in Mariana bottom water and sediments may be derived from industrialised regions in the Northwest Pacific and the North Pacific Subtropical Gyre, where the Pacific surface circulation may lead to long-distance transport of MPs to the Mariana Trench
Summary
Assistant Professor, Department of Civil Engineering, Birla Institute of Technology and Science (BITS) Pilani, Pilani, India Science Leader, Health and Environment Division, Institute of Environmental Science and Research, Christchurch Science Centre, Christchurch, New Zealand (Orcid:0000-0002-1429-2185)
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