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. Marine & Wildlife Sign in to save

Preliminary indoor evidences of microplastic effects on freshwater benthic macroinvertebrates

Scientific Reports 2021 56 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 55 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Loris Pietrelli, Massimiliano Scalici, Giulia Cesarini, Luca Gallitelli Luca Gallitelli Luca Gallitelli Luca Gallitelli Luca Gallitelli Luca Gallitelli Luca Gallitelli Luca Gallitelli Luca Gallitelli Luca Gallitelli Loris Pietrelli, Loris Pietrelli, Loris Pietrelli, Loris Pietrelli, Loris Pietrelli, Loris Pietrelli, Giulia Cesarini, Giulia Cesarini, Giulia Cesarini, Giulia Cesarini, Giulia Cesarini, Giulia Cesarini, Alessandra Cera, Alessandra Cera, Alessandra Cera, Alessandra Cera, Giulia Cesarini, Giulia Cesarini, Alessandra Cera, Alessandra Cera, Alessandra Cera, Giulia Cesarini, Giulia Cesarini, Giulia Cesarini, Giulia Cesarini, Giulia Cesarini, Luca Gallitelli Loris Pietrelli, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Alessandra Cera, Alessandra Cera, Alessandra Cera, Alessandra Cera, Alessandra Cera, Alessandra Cera, Luca Gallitelli Luca Gallitelli Giulia Cesarini, Loris Pietrelli, Giulia Cesarini, Giulia Cesarini, Luca Gallitelli Giulia Cesarini, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Loris Pietrelli, Luca Gallitelli Giulia Cesarini, Luca Gallitelli Luca Gallitelli Loris Pietrelli, Giulia Cesarini, Massimiliano Scalici, Luca Gallitelli Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Alessandra Cera, Massimiliano Scalici, Giulia Cesarini, Massimiliano Scalici, Massimiliano Scalici, Loris Pietrelli, Luca Gallitelli Loris Pietrelli, Loris Pietrelli, Loris Pietrelli, Loris Pietrelli, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Luca Gallitelli Massimiliano Scalici, Loris Pietrelli, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Loris Pietrelli, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Loris Pietrelli, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Massimiliano Scalici, Loris Pietrelli, Loris Pietrelli, Massimiliano Scalici, Loris Pietrelli, Massimiliano Scalici, Massimiliano Scalici, Luca Gallitelli Luca Gallitelli

Summary

Researchers exposed caddisfly and mayfly larvae to various microplastic polymers in laboratory experiments and found that caddisflies incorporated microplastics into their rebuilt cases and mayflies preferentially burrowed in microplastic substrates over natural ones. The study suggests that freshwater macroinvertebrates may not perceive microplastics as a direct threat, raising concerns about chronic exposure effects in heavily contaminated waterways.

Polymers

ABS PET PP PS

Study Type Environmental

Plastics are to date considered one of the main detrimental drivers for the health of aquatic ecosystems, both in marine and inland waters. Regarding the latter habitat, it seems surprising how the plastic effects on benthic invertebrates are neglected since macroinvertebrates have a long tradition in the water quality assessment activities. In this context, we propose timely indoor observations on the exposure of caddisfly Odontocerum albicorne and mayfly Ephemera danica to various microplastic polymers (ABS, PET, PP, PS, PVDF). Three different experimental designs were performed on caddisflies and mayflies by exposing their larvae to natural and microplastic substrates. Our findings highlighted how microplastics affected both caddisflies in rebuilding its own case (after having removed the natural one) and mayflies burrowing. Particularly, all caddisflies rebuilt cases using the microplastic polymers provided instead of natural items only. Moreover, we provide the first evidence that mayflies burrow mainly in microplastic substrates rather than in natural ones. Our research highlights that macroinvertebrate larvae would use naturally occurring microplastics and this could be of particular concern in freshwaters with high contamination by plastics. Indeed, larvae appear to not necessarily perceive microplastics as a direct stressor. Further studies ought to be conducted to understand the chronic perturbation on larvae fitness and for example, on drift behaviour. Also, further investigations are needed to understand the potentialities of using plastics by benthic macroinvertebrates.

Read via DOI PubMed PMC Full Text Download PDF

Share this paper

Post Share Share Pin Email