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Microplastic fate in soil environments: Drivers of the vertical transport of mulching film fragments
Summary
This study examined the vertical transport and fate of microplastics in soil environments, focusing on particles generated from the degradation of plastic mulch films used in agriculture. Multiple drivers including soil structure, rainfall, and particle properties were shown to influence how deeply microplastics migrate through the soil profile.
Soil environments have been identified as key recipients of microplastic pollution. One important source of microplastic is related to the degradation and fragmentation of plastic mulching films during and after use. Pollution emerging from this use and (mis-)management has already been documented in several occurrence studies globally. Yet, the environmental fate of mulching film fragments remains poorly understood. This study addressed this critical knowledge gap by investigating the vertical transport of mulching film fragments in soils, specifically assessing the influence of different potential drivers of this transport: bioturbation and soil water inputs. Vertical transport was tracked in a mesocosm experiment, utilising the CLIMECS (CLImatic Manipulation of ECosystem Samples) facility at Vrije Universiteit Amsterdam, which comprises 40 soil columns that simulate ecosystems – with soil, vegetation, and fauna – and are individually controlled for different environmental conditions. Two different types of mulching film fragments – one conventional (LLDPE) and biodegradable (starch-PBAT blend) – were used to spike the upper portion of 40 cm soil columns. Different treatments comprised high, medium, and low microplastic concentrations, the presence and absence of two species of earthworm, and a high and low watering regime. The columns were maintained for a period of 12 weeks and, at the end of the experiment, were broken down into six different soil depths to assess the vertical transport of mulching film fragments. The results show how earthworms represent important drivers of the downward mobilisation of microplastic particles in soils, with limited selectivity based on particle size or material composition. This provides crucial context related to the exposure of soil environments to soil microplastic pollution derived from mulching film use. Also see: https://micro2024.sciencesconf.org/559359/document
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