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Assessment of the Effect of PHBV-Based Bioplastic Microparticles on Soil Organisms
Summary
Researchers tested the effects of PHBV bioplastic microparticles on soil organisms using plants and earthworms in a small terrestrial model ecosystem. They found that PHBV microparticles did not affect plant germination or earthworm survival, but reduced plant dry matter and caused earthworms to move deeper into the soil, suggesting avoidance behavior. The study also identified chemical compounds released from PHBV leachates, indicating that even bioplastics warrant environmental safety evaluation.
(1) Background: A bioplastic poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) is used in agriculture and in other applications like shopping bags, toys, and containers. Since the production of bio-based plastics, including PHBV-based materials, is expected to increase within the next few years, they are prone to becoming ubiquitous pollutants of the soil compartment. (2) Methods: An innovative PHBV-based plastic material was tested for its effect on higher plants and earthworms at the community level in a small-terrestrial model ecosystem (STME). The leachates obtained from PHBV-based plastic were studied with the use of ecotoxicological tests with regard to their impact on the early stages of the growth of higher plants and with the use of LC/MS toward the identification of the released chemical compounds. (3) Results: PHBV-based plastic microparticles at the relatively high but environmentally relevant concentration of 2.5% w/w neither affected the germination of higher plants nor inhibited their growth. The synthesis of chlorophyll and the C:N ratio in the plant biomass did not deteriorate, but the content of dry matter of the plant biomass was reduced at a statistically significant level. PHBV-based microplastics did not contribute to the mortality of Eisenia andrei, whereas they affected the depth distribution of these earthworms in the soil. Their downward movement indicated the avoidance behaviour under unfavourable living conditions. In the leachates from PHBV-based bioplastic, lactic acid and glycerol triacetate, commonly used plastic additives, were identified. These leachates did not inhibit the germination and the early stages of growth of higher plants. (4) Conclusions: PHBV-based bioplastic was studied at a concentration not higher than 2.5% w/w, and its leachates do not pose a threat to soil biota and should not affect the sustainability of the terrestrial ecosystem.
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