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Above- and below-ground impacts of biotransformation additive-containing plastics and their leachates on barley growth and soil dynamics: a mesocosm study
Summary
Researchers conducted a mesocosm study evaluating both physical (microplastic fragment) and chemical (leachate) effects of pristine and xenon-arc weathered pro-oxidant additive-containing (PAC) plastics on spring barley (Hordeum vulgare) growth and soil dynamics. The study assessed whether these 'biotransformation' plastics, engineered to degrade via oxidation, pose ecological risks to agricultural soils through above- and below-ground pathways.
Plastics containing pro-oxidant additives (PAC plastics) are engineered to degrade in the environment through oxidation, potentially reducing disposal costs compared to conventional films. Recent findings suggest they may form waxes rather than microplastics, but their ecological impact remains largely unknown, highlighting the need for further research to guide sustainable plastic use guidelines before widespread adoption. This study evaluated the effects of the addition of pristine and aged "biotransformation" PAC plastics, in physical (as microplastic fragments) or chemical (as leachate) form on Hordeum vulgare (spring barley) growth and soil properties. Pristine BioPE films were weathered in a xenon-arc test chamber to produce aged particles and leachate was extracted from both pristine (unweathered) and aged (weathered) particles. Particles were added at 0.1 Also see: https://micro2024.sciencesconf.org/554179/document