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Tier 2
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Original research — experimental, observational, or case-control study. Direct primary evidence.
Environmental Sources
Marine & Wildlife
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Weathering of microplastics and interaction with other coexisting constituents in terrestrial and aquatic environments
Water Research2021
583 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 55
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Nanthi Bolan,
Jiajun Duan,
Jiajun Duan,
Jiajun Duan,
Jiajun Duan,
Thilakshani Atugoda,
Thilakshani Atugoda,
Thilakshani Atugoda,
Thilakshani Atugoda,
Thilakshani Atugoda,
Thilakshani Atugoda,
Thilakshani Atugoda,
Nanthi Bolan,
Thilakshani Atugoda,
M.B. Kirkham
M.B. Kirkham
Meththika Vithanage,
Thilakshani Atugoda,
Thilakshani Atugoda,
Meththika Vithanage,
Meththika Vithanage,
Nanthi Bolan,
Binoy Sarkar,
Binoy Sarkar,
Yang Li,
Yang Li,
Binoy Sarkar,
Yang Li,
Thilakshani Atugoda,
Thilakshani Atugoda,
Yang Li,
Meththika Vithanage,
Thilakshani Atugoda,
Nanthi Bolan,
Nanthi Bolan,
Nanthi Bolan,
Nanthi Bolan,
Nanthi Bolan,
Meththika Vithanage,
Nanthi Bolan,
Nanthi Bolan,
Thilakshani Atugoda,
Daniel C.W. Tsang,
M.B. Kirkham
M.B. Kirkham
Yang Li,
Yang Li,
Yang Li,
Yang Li,
Nanthi Bolan,
Yang Li,
Daniel C.W. Tsang,
Daniel C.W. Tsang,
Thilakshani Atugoda,
Thilakshani Atugoda,
Binoy Sarkar,
Binoy Sarkar,
M.B. Kirkham
Meththika Vithanage,
Binoy Sarkar,
Yang Li,
Nanthi Bolan,
Binoy Sarkar,
Yang Li,
Nanthi Bolan,
Meththika Vithanage,
Yang Li,
Yang Li,
Binoy Sarkar,
Binoy Sarkar,
Thilakshani Atugoda,
Yang Li,
Thilakshani Atugoda,
Jiajun Duan,
Nanthi Bolan,
Meththika Vithanage,
Jiajun Duan,
Jiajun Duan,
Daniel C.W. Tsang,
Nanthi Bolan,
Nanthi Bolan,
Nanthi Bolan,
Meththika Vithanage,
Nanthi Bolan,
Nanthi Bolan,
Nanthi Bolan,
Nanthi Bolan,
Nanthi Bolan,
Nanthi Bolan,
Meththika Vithanage,
Nanthi Bolan,
Meththika Vithanage,
Meththika Vithanage,
Meththika Vithanage,
Meththika Vithanage,
Meththika Vithanage,
Meththika Vithanage,
Binoy Sarkar,
Binoy Sarkar,
Binoy Sarkar,
Binoy Sarkar,
Binoy Sarkar,
Yang Li,
Yang Li,
Yang Li,
Yang Li,
M.B. Kirkham
M.B. Kirkham
M.B. Kirkham
Daniel C.W. Tsang,
Daniel C.W. Tsang,
Daniel C.W. Tsang,
Shiyuan Ding,
Shiyuan Ding,
Nanthi Bolan,
Nanthi Bolan,
Nanthi Bolan,
Meththika Vithanage,
Thilakshani Atugoda,
Meththika Vithanage,
Meththika Vithanage,
M.B. Kirkham
Meththika Vithanage,
Thilakshani Atugoda,
Yang Li,
Yang Li,
Nanthi Bolan,
Meththika Vithanage,
Meththika Vithanage,
Meththika Vithanage,
Nanthi Bolan,
Meththika Vithanage,
Binoy Sarkar,
Meththika Vithanage,
Nanthi Bolan,
Meththika Vithanage,
Meththika Vithanage,
Meththika Vithanage,
M.B. Kirkham
Jiajun Duan,
Nanthi Bolan,
Nanthi Bolan,
Meththika Vithanage,
Meththika Vithanage,
Meththika Vithanage,
Binoy Sarkar,
Binoy Sarkar,
Meththika Vithanage,
Yang Li,
Meththika Vithanage,
Yang Li,
Meththika Vithanage,
Yang Li,
Yang Li,
M.B. Kirkham
Jiajun Duan,
Nanthi Bolan,
Jiajun Duan,
Nanthi Bolan,
Nanthi Bolan,
Nanthi Bolan,
Meththika Vithanage,
Jiajun Duan,
Meththika Vithanage,
Meththika Vithanage,
Meththika Vithanage,
Meththika Vithanage,
Binoy Sarkar,
Meththika Vithanage,
Yang Li,
Meththika Vithanage,
Yang Li,
Yang Li,
Yang Li,
Yang Li,
Yang Li,
Meththika Vithanage,
Nanthi Bolan,
Binoy Sarkar,
Meththika Vithanage,
Nanthi Bolan,
Nanthi Bolan,
Yang Li,
Nanthi Bolan,
M.B. Kirkham
Nanthi Bolan,
Daniel C.W. Tsang,
Binoy Sarkar,
Meththika Vithanage,
Meththika Vithanage,
Nanthi Bolan,
M.B. Kirkham
Nanthi Bolan,
Yang Li,
Nanthi Bolan,
Yang Li,
Meththika Vithanage,
Meththika Vithanage,
Nanthi Bolan,
Nanthi Bolan,
Meththika Vithanage,
Binoy Sarkar,
Daniel C.W. Tsang,
Daniel C.W. Tsang,
Nanthi Bolan,
Nanthi Bolan,
Nanthi Bolan,
Binoy Sarkar,
Nanthi Bolan,
M.B. Kirkham
Summary
This review summarizes how microplastics weather and interact with other environmental constituents in both terrestrial and aquatic systems. Researchers found that weathering processes such as UV exposure and microbial activity alter the surface properties of microplastics, increasing their ability to adsorb heavy metals, organic pollutants, and pathogens. The study highlights that weathered microplastics may pose greater environmental risks than pristine particles due to their enhanced capacity to carry contaminants.
Study Type
Environmental
Weathering of microplastics (MPs, < 5 mm) in terrestrial and aquatic environments affects MP transport and distribution. This paper first summarizes the sources of MPs, including refuse in landfills, biowastes, plastic films, and wastewater discharge. Once MPs enter water and soil, they undergo different weathering processes. MPs can be converted into small molecules (e.g., oligomers and monomers), and may be completely mineralized under the action of free radicals or microorganisms. The rate and extent of weathering of MPs depend on their physicochemical properties and environmental conditions of the media to which they are exposed. In general, water dissipates heat better, and has a lower temperature, than land; thus, the weathering rate of MPs in the aquatic environment is slower than in the terrestrial environment. These weathering processes increase oxygen-containing functional groups and the specific surface area of MPs, which influence the sorption and aggregation that occur between weathered MPs and their co-existing constituents. More studies are needed to investigate the various weathering processes of diverse MPs under natural field conditions in soils, sediments, and aquatic environments, to understand the impact of weathered MPs in the environment.