Tyre and road wear particles (TRWP) - A review of generation, properties, emissions, human health risk, ecotoxicity, and fate in the environment

In this paper, the current knowledge on tyre and road wear particles (TRWP) is compiled regarding all environmental and health aspects. TRWP generated on roads during driving processes contribute to airborne non-exhaust emissions and are discussed in connection with the microplastic pollution. The major amount of TRWP consists of coarser heterogenous particles released to road surface, soils and aquatic compartments. The extensive compilation of annual emissions of tyre wear for numerous countries shows per-capita-masses ranging from 0.2 to 5.5 kg/(cap*a). Ecotoxicological studies revealed effects on aquatic organisms, but test concentrations and materials do not reflect environmental conditions. Contribution of tyre wear to PM10 accounts for up to approx. 11 mass %. A recent thorough risk assessment indicates the risk for human health via inhalation to be low, but no information is available on the risk caused by intake via the food chain. Data on degradation is scarce and most studies do not use realistic materials and conditions. The only published degradation study performed under environmental conditions implies a half-life of tyre rubber particles in soils of 16 months. For truck tyres, which mainly contain natural rubber, shorter periods were observed under optimum conditions in laboratory tests. Concentrations of tyre wear compiled from environmental monitoring studies show highly variable concentrations in road runoff, road dust, roadside soils, river sediments and river water, with a general decrease following the transport paths. However, the behaviour of TRWP in freshwater referring to transport, degradation, and sedimentation is still unclarified. Environmental monitoring of TRWP is still hampered by challenges for analytics. Thus, data on environmental concentrations is rare and has mainly exemplary character. Further research is needed with regard to emission factors, development of analytical methods for environmental matrices, long-period monitoring, fate in surface waters and soils, (eco)toxicological impacts and degradation under realistic conditions.