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Nanoplastics
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The digestive system of a cricket pulverizes polyethylene microplastics down to the nanoplastic scale
Environmental Pollution2023
16 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 45
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Marshall W. Ritchie,
Marshall W. Ritchie,
Jennifer F. Provencher
Jennifer F. Provencher
Jane E. Allison,
Marshall W. Ritchie,
Marshall W. Ritchie,
Jane E. Allison,
Jennifer F. Provencher
Marshall W. Ritchie,
Marshall W. Ritchie,
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Marshall W. Ritchie,
Marshall W. Ritchie,
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Marshall W. Ritchie,
Marshall W. Ritchie,
Marshall W. Ritchie,
Marshall W. Ritchie,
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jane E. Allison,
Jennifer F. Provencher
Jane E. Allison,
Jennifer F. Provencher
Heath A. MacMillan,
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jane E. Allison,
Jane E. Allison,
Matthew J. Muzzatti,
Matthew J. Muzzatti,
Jennifer F. Provencher
Heath A. MacMillan,
Heath A. MacMillan,
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jane E. Allison,
Jane E. Allison,
Matthew J. Muzzatti,
Matthew J. Muzzatti,
Jane E. Allison,
Jane E. Allison,
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Heath A. MacMillan,
Jennifer F. Provencher
Heath A. MacMillan,
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Heath A. MacMillan,
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Heath A. MacMillan,
Jennifer F. Provencher
Jennifer F. Provencher
Heath A. MacMillan,
Jane E. Allison,
Jennifer F. Provencher
Jane E. Allison,
Heath A. MacMillan,
Jennifer F. Provencher
Jane E. Allison,
Jennifer F. Provencher
Jennifer F. Provencher
Heath A. MacMillan,
Jennifer F. Provencher
Heath A. MacMillan,
Heath A. MacMillan,
Jane E. Allison,
Jennifer F. Provencher
Heath A. MacMillan,
Jane E. Allison,
Jennifer F. Provencher
Jennifer F. Provencher
Jane E. Allison,
Jennifer F. Provencher
Jane E. Allison,
Jane E. Allison,
Jane E. Allison,
Jane E. Allison,
Jennifer F. Provencher
Heath A. MacMillan,
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Jennifer F. Provencher
Heath A. MacMillan,
Jennifer F. Provencher
Jennifer F. Provencher
Summary
This study found that crickets (Gryllodes sigillatus) physically ground ingested polyethylene microplastics down to nanoplastic-scale particles through their digestive processes, a finding with implications for how insects contribute to nanoplastic generation and dispersal in terrestrial ecosystems.
Microplastics (MPs; <5 mm) are a growing concern and a poorly understood threat to biota. We used a generalist insect (a cricket; Gryllodes sigillatus) to examine whether individuals would ingest and physically degrade MPs in their food. We fed crickets a range of concentrations (0, 2.5, 5, and 10% w/w) of fluorescent polyethylene MPs mixed into a standard diet and dissected the gut regions to isolate the MPs within. Comparing plastic content and fragment size within gut regions, we sought to identify whether and where crickets can fragment ingested MP particles. Given the digestive tract morphology of this species, we expected that the crickets would both ingest and egest the MPs. We also predicted that the MPs would be fragmented into smaller pieces during this digestive process. We found that G. sigillatus egested much smaller pieces than they ingested, and this fragmentation occurs early in the digestive process of this insect. We found this for both sexes as well as across the range of concentrations of MPs. The degree of plastic breakdown relative to plastic feeding time suggests that the ability to fragment MPs is intrinsic and not altered by how much time crickets have spent eating the plastics. The amount of plastics found in each region of the gut in relation to feeding time also suggests that this size and shape of PE microplastic does not cause any physical blockage in the gut. This lack of evidence for blockage is likely due to plastic breakdown. We found a ∼1000-fold reduction in plastic size occurs during passage through the digestive system, yielding particles very near nanoplastics (NPs; <1 μm), and likely smaller, that are then excreted back into the environment. These findings suggest that generalist insects can act as agents of plastic transformation in their environment if/when encountering MPs.