Microplastic effects on carbon cycling processes in soils
PLoS Biology2021
503 citations
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Score: 55
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
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Eva F. Leifheit,
Eva F. Leifheit,
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Eva F. Leifheit,
Matthias C. Rillig
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Eva F. Leifheit,
Eva F. Leifheit,
Matthias C. Rillig
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Eva F. Leifheit,
Eva F. Leifheit,
Eva F. Leifheit,
Eva F. Leifheit,
Eva F. Leifheit,
Matthias C. Rillig
Matthias C. Rillig
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Johannes Lehmann,
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Eva F. Leifheit,
Eva F. Leifheit,
Eva F. Leifheit,
Eva F. Leifheit,
Eva F. Leifheit,
Eva F. Leifheit,
Eva F. Leifheit,
Matthias C. Rillig
Matthias C. Rillig
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Eva F. Leifheit,
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Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
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Johannes Lehmann,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Summary
Researchers reviewed how microplastics affect carbon cycling processes in soils, including their influence on microbial activity, plant growth, and litter decomposition. Since microplastics are themselves carbon-based materials, they can directly alter soil carbon stocks while also indirectly shifting microbial communities. The study calls for a major research effort to understand the widespread effects of microplastics on soil functioning and terrestrial ecosystem health.
Microplastics (MPs), plastic particles <5 mm, are found in environments, including terrestrial ecosystems, planetwide. Most research so far has focused on ecotoxicology, examining effects on performance of soil biota in controlled settings. As research pivots to a more ecosystem and global change perspective, questions about soil-borne biogeochemical cycles become important. MPs can affect the carbon cycle in numerous ways, for example, by being carbon themselves and by influencing soil microbial processes, plant growth, or litter decomposition. Great uncertainty surrounds nano-sized plastic particles, an expected by-product of further fragmentation of MPs. A major concerted effort is required to understand the pervasive effects of MPs on the functioning of soils and terrestrial ecosystems; importantly, such research needs to capture the immense diversity of these particles in terms of chemistry, aging, size, and shape.