Are Biobased Microfibers Less Harmful than Conventional Plastic Microfibers: Evidence from Earthworms

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

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Are Biobased Microfibers Less Harmful than Conventional Plastic Microfibers: Evidence from Earthworms. / Courtene-Jones, W; De Falco, Francesca; Burgevin, F et al.
Yn: Environmental Science and Technology, Cyfrol 58, Rhif 46, 19.11.2024, t. 20366-20377.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

HarvardHarvard

Courtene-Jones, W, De Falco, F, Burgevin, F, Handy, RD & Thompson, RC 2024, 'Are Biobased Microfibers Less Harmful than Conventional Plastic Microfibers: Evidence from Earthworms', Environmental Science and Technology, cyfrol. 58, rhif 46, tt. 20366-20377. https://doi.org/10.1021/acs.est.4c05856

APA

Courtene-Jones, W., De Falco, F., Burgevin, F., Handy, R. D., & Thompson, R. C. (2024). Are Biobased Microfibers Less Harmful than Conventional Plastic Microfibers: Evidence from Earthworms. Environmental Science and Technology, 58(46), 20366-20377. https://doi.org/10.1021/acs.est.4c05856

CBE

Courtene-Jones W, De Falco F, Burgevin F, Handy RD, Thompson RC. 2024. Are Biobased Microfibers Less Harmful than Conventional Plastic Microfibers: Evidence from Earthworms. Environmental Science and Technology. 58(46):20366-20377. https://doi.org/10.1021/acs.est.4c05856

MLA

VancouverVancouver

Courtene-Jones W, De Falco F, Burgevin F, Handy RD, Thompson RC. Are Biobased Microfibers Less Harmful than Conventional Plastic Microfibers: Evidence from Earthworms. Environmental Science and Technology. 2024 Tach 19;58(46):20366-20377. Epub 2024 Tach 5. doi: 10.1021/acs.est.4c05856

Author

Courtene-Jones, W ; De Falco, Francesca ; Burgevin, F et al. / Are Biobased Microfibers Less Harmful than Conventional Plastic Microfibers : Evidence from Earthworms. Yn: Environmental Science and Technology. 2024 ; Cyfrol 58, Rhif 46. tt. 20366-20377.

RIS

TY - JOUR

T1 - Are Biobased Microfibers Less Harmful than Conventional Plastic Microfibers

T2 - Evidence from Earthworms

AU - Courtene-Jones, W

AU - De Falco, Francesca

AU - Burgevin, F

AU - Handy, R D

AU - Thompson, R C

PY - 2024/11/19

Y1 - 2024/11/19

N2 - Biobased plastics are sometimes promoted as "environmentally friendly" compared to their conventional petrochemical-based counterparts, but their ecotoxicity is only partially understood. Biobased fibers are widely used in clothing and wet wipes and can accumulate in soils through the application of biosolid fertilizers. This study examined the lethal thresholds and sublethal toxicity of chemically characterized, additive-free, biobased (viscose and lyocell) compared to petrochemical-based (polyester) fibers on the key ecosystem engineer, Esenia fetida. Viscose and lyocell had LC20 values of 14.00 and 22.66 mg·L-1, respectively, and no observed effect concentrations (NOEC) of 0-2.8 mg·L-1 (72 h, OECD TG207 filter paper method), while for polyester these were LC20 15.6-31.3 mg·L-1 and NOEC 0-15.6 mg·L-1. Following 28 days of exposure to soils (OECD TG222) contaminated with environmentally relevant concentrations (100 mg kg-1), viscose significantly reduced the mass of progeny compared to polyester. Earthworms exposed to lyocell had a marginal growth reduction (-18%; compared to -11% to -13% in other treatments) linked to increased bioturbation activity. The biobased fibers examined here have greater acute toxicity at high concentrations and broadly similar sublethal effects on E. fetida compared to polyester. Our study highlights the importance of detailed testing before advocating specific materials as plastic alternatives/substitutes to conventional plastics.

AB - Biobased plastics are sometimes promoted as "environmentally friendly" compared to their conventional petrochemical-based counterparts, but their ecotoxicity is only partially understood. Biobased fibers are widely used in clothing and wet wipes and can accumulate in soils through the application of biosolid fertilizers. This study examined the lethal thresholds and sublethal toxicity of chemically characterized, additive-free, biobased (viscose and lyocell) compared to petrochemical-based (polyester) fibers on the key ecosystem engineer, Esenia fetida. Viscose and lyocell had LC20 values of 14.00 and 22.66 mg·L-1, respectively, and no observed effect concentrations (NOEC) of 0-2.8 mg·L-1 (72 h, OECD TG207 filter paper method), while for polyester these were LC20 15.6-31.3 mg·L-1 and NOEC 0-15.6 mg·L-1. Following 28 days of exposure to soils (OECD TG222) contaminated with environmentally relevant concentrations (100 mg kg-1), viscose significantly reduced the mass of progeny compared to polyester. Earthworms exposed to lyocell had a marginal growth reduction (-18%; compared to -11% to -13% in other treatments) linked to increased bioturbation activity. The biobased fibers examined here have greater acute toxicity at high concentrations and broadly similar sublethal effects on E. fetida compared to polyester. Our study highlights the importance of detailed testing before advocating specific materials as plastic alternatives/substitutes to conventional plastics.

KW - Animals

KW - Oligochaeta/drug effects

KW - Plastics/toxicity

KW - Polyesters

KW - Soil Pollutants/toxicity

KW - Soil/chemistry

U2 - 10.1021/acs.est.4c05856

DO - 10.1021/acs.est.4c05856

M3 - Article

C2 - 39498562

VL - 58

SP - 20366

EP - 20377

JO - Environmental Science and Technology

JF - Environmental Science and Technology

SN - 0013-936X

IS - 46

ER -