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Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Environmental Sources Marine & Wildlife Policy & Risk Remediation Sign in to save

Cleaning Up without Messing Up: Maximizing the Benefits of Plastic Clean-Up Technologies through New Regulatory Approaches

Environmental Science & Technology 2023 40 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Marcus Eriksen Justine Ammendolia, Marcus Eriksen Tony R. ‎Walker, Tony R. ‎Walker, Justine Ammendolia, Marcus Eriksen Justine Ammendolia, Justine Ammendolia, Kathinka Fürst, Hanna Dijkstra, Hanna Dijkstra, Rachel Karasik, Giulia Leone, Giulia Leone, Idun Rognerud, Jannike Falk‐Andersson, Hannah De Frond, Hannah De Frond, Hannah De Frond, Hannah De Frond, Hannah De Frond, Zoie Diana, Zoie Diana, Justine Ammendolia, Zoie Diana, Justine Ammendolia, Zoie Diana, Zoie Diana, Zoie Diana, Tony R. ‎Walker, Marcus Eriksen Marcus Eriksen Marcus Eriksen Marcus Eriksen Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Justine Ammendolia, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Justine Ammendolia, Justine Ammendolia, Justine Ammendolia, Justine Ammendolia, Tony R. ‎Walker, Rachel Karasik, Hannah De Frond, Tony R. ‎Walker, Hannah De Frond, Idun Rognerud, Tony R. ‎Walker, Hannah De Frond, Hannah De Frond, Hannah De Frond, Hannah De Frond, Tony R. ‎Walker, Tony R. ‎Walker, Justine Ammendolia, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Hanna Dijkstra, Hannah De Frond, Hannah De Frond, Hannah De Frond, Tony R. ‎Walker, Tony R. ‎Walker, Justine Ammendolia, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Marcus Eriksen Zoie Diana, Hannah De Frond, Giulia Leone, Rachel Karasik, Zoie Diana, Tony R. ‎Walker, Marcus Eriksen Marcus Eriksen Justine Ammendolia, Tony R. ‎Walker, Giulia Leone, Tony R. ‎Walker, Tony R. ‎Walker, Justine Ammendolia, Justine Ammendolia, Giulia Leone, Tony R. ‎Walker, Jannike Falk‐Andersson, Tony R. ‎Walker, Hannah De Frond, Tony R. ‎Walker, Justine Ammendolia, Marcus Eriksen Marcus Eriksen Tony R. ‎Walker, Tony R. ‎Walker, Marcus Eriksen Tony R. ‎Walker, Hannah De Frond, Hannah De Frond, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Justine Ammendolia, Rachel Karasik, Zoie Diana, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Marcus Eriksen Marcus Eriksen Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Marcus Eriksen Hanna Dijkstra, Marcus Eriksen Tony R. ‎Walker, Tony R. ‎Walker, Marcus Eriksen Kathinka Fürst, Marcus Eriksen Marcus Eriksen Hannah De Frond, Tony R. ‎Walker, Tony R. ‎Walker, Justine Ammendolia, Marcus Eriksen Tony R. ‎Walker, Tony R. ‎Walker, Tony R. ‎Walker, Hannah De Frond, Marcus Eriksen Tony R. ‎Walker, Zoie Diana, Zoie Diana, Ria Utz, Marcus Eriksen Tony R. ‎Walker, Hannah De Frond, Tony R. ‎Walker, Tony R. ‎Walker, Kathinka Fürst, Marcus Eriksen Marcus Eriksen Hannah De Frond, Hannah De Frond, Hannah De Frond, Hannah De Frond, Tony R. ‎Walker, Marcus Eriksen Marcus Eriksen

Summary

This study examines the need for regulatory frameworks governing plastic clean-up technologies deployed in the environment. Researchers found that while such technologies play an important role in reducing litter, unregulated clean-up efforts may have unintended negative consequences on ecosystems through bycatch or removal of organic matter important for ecosystem functions.

As the global plastics crisis grows, numerous technologies have been invented and implemented to recover plastic pollution from the environment. Although laudable, unregulated clean-up technologies may be inefficient and have unintended negative consequences on ecosystems, for example, through bycatch or removal of organic matter important for ecosystem functions. Despite these concerns, plastic clean-up technologies can play an important role in reducing litter in the environment. As the United Nations Environment Assembly is moving toward an international, legally binding treaty to address plastic pollution by 2024, the implementation of plastic clean-up technologies should be regulated to secure their net benefits and avoid unintended damages. Regulation can require environmental impact assessments and life cycle analysis to be conducted predeployment on a case-by-case basis to determine their effectiveness and impact and secure environmentally sound management. During operations catch-efficiency and bycatch of nonlitter items, as well as waste management of recovered litter, should be documented. Data collection for monitoring, research, and outreach to mitigate plastic pollution is recommended as added value of implementation of clean-up technologies.

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