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Ingestion of microplastic fibres, but not microplastic beads, impacts growth rates in the tropical house cricket <i>Gryllodes sigillatus</i>

2022 1 citation ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 35 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Marshall W. Ritchie, Marshall W. Ritchie, Serita Fudlosid, Serita Fudlosid, Serita Fudlosid, Jane E. Allison, Serita Fudlosid, Serita Fudlosid, Serita Fudlosid, Jennifer F. Provencher Jane E. Allison, Jennifer F. Provencher Jennifer F. Provencher Jennifer F. Provencher Jennifer F. Provencher Jennifer F. Provencher Marshall W. Ritchie, Marshall W. Ritchie, Marshall W. Ritchie, 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, Jennifer F. Provencher Marshall W. Ritchie, Jennifer F. Provencher Jennifer F. Provencher Matthew J. Muzzatti, Jennifer F. Provencher Heath A. MacMillan, Jennifer F. Provencher Jennifer F. Provencher Jennifer F. Provencher Jennifer F. Provencher Jane E. Allison, Jane E. Allison, Matthew J. Muzzatti, Jane E. Allison, Jane E. Allison, Jennifer F. Provencher Jane E. Allison, Jane E. Allison, Heath A. MacMillan, Jennifer F. Provencher Jennifer F. Provencher Jennifer F. Provencher Jennifer F. Provencher Matthew J. Muzzatti, Matthew J. Muzzatti, Jane E. Allison, Heath A. MacMillan, Jennifer F. Provencher Jane E. Allison, 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 Jennifer F. Provencher Jennifer F. Provencher Heath A. MacMillan, Jennifer F. Provencher Heath A. MacMillan, Heath A. MacMillan, Jennifer F. Provencher Jane E. Allison, Heath A. MacMillan, Jennifer F. Provencher Heath A. MacMillan, Jennifer F. Provencher Jane E. Allison, Jennifer F. Provencher Jennifer F. Provencher Jane E. Allison, Jennifer F. Provencher Jennifer F. Provencher Heath A. MacMillan, Jane E. Allison, Heath A. MacMillan, Heath A. MacMillan, Jennifer F. Provencher Jennifer F. Provencher Jennifer F. Provencher Jennifer F. Provencher Jane E. Allison, Jennifer F. Provencher Jennifer F. Provencher Jennifer F. Provencher Jane E. Allison, 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 Heath A. MacMillan, Jennifer F. Provencher Jennifer F. Provencher

Summary

Researchers exposed tropical house crickets (Gryllodes sigillatus) from hatching to adulthood to diets containing polyethylene microplastic fibers or beads at multiple concentrations, finding that fiber ingestion significantly impaired growth rates while bead ingestion did not, suggesting that plastic morphology determines gut interaction severity and downstream fitness impacts in terrestrial insects.

Polymers
PE PET

Abstract Microplastic is a growing concern as an environmental contaminant as it is ubiquitous in our ecosystems. Microplastics are present in terrestrial environments, yet the majority of studies have focused on the adverse effects of microplastics on aquatic biota. We hypothesized that microplastic ingestion by a terrestrial insect would have localized effects on gut health and nutrient absorption, such that prolonged dietary microplastic exposure would impact growth rate and adult body size. We further hypothesized that plastic form (fibres vs. beads) would influence these effects because of the nature of gut-plastic interactions. Freshly hatched tropical house crickets ( Gryllodes sigillatus ) were fed a standard diet containing different concentrations of either fluorescent polyethylene microplastic beads (75-105 μm), or untreated polyethylene terephthalate microfibers (&lt;5 mm) until they died or reached adulthood (approximately 8 weeks). Weight and body length were measured weekly and microplastic ingestion was confirmed through fluorescence microscopy and visual inspection of the frass. While, to our surprise, we found no effect of polyethylene bead ingestion on growth rate or final body size of G. sigillatus , females experienced a reduction in size and weight when fed high concentrations of polyethylene terephthalate microfibers. These results suggest that high concentrations of polyethylene beads of the 100 μm size range can pass through the cricket gut without a substantial negative effect on their growth and development time, but high concentrations of polyethylene terephthalate microfibers cannot. Although we report the negative effects of microplastic ingestion on the growth of G. sigillatus , it remains uncertain what threats microplastics pose to terrestrial insects.

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