Assessment of cryogenic pretreatment for simulating environmental weathering in the formation of surrogate micro- and nanoplastics from agricultural mulch film

A. F. Astner, D. G. Hayes, H. O'Neill, B. R. Evans, S. V. Pingali, V. S. Urban, S. M. Schaeffer, T. M. Young

Research output: Contribution to journalArticlepeer-review

5 Scopus citations

Abstract

Microplastics (MPs) and nanoplastics (NPs) from mulch films and other plastic materials employed in vegetable and small fruit production pose a major threat to agricultural ecosystems. For conducting controlled studies on MPs' and NPs' (MNPs') ecotoxicity to soil organisms and plants and fate and transport in soil, surrogate MNPs are required that mimic MNPs that form in agricultural fields. We have developed a procedure to prepare MPs from plastic films or pellets using mechanical milling and sieving, and conversion of the resultant MPs into NPs through wet grinding, both steps of which mimic the degradation and fragmentation of plastics in nature. The major goal of this study was to determine if cryogenic exposure of two biodegradable mulch films effectively mimics the embrittlement caused by environmental weathering in terms of the dimensional, thermal, chemical, and biodegradability properties of the formed MNPs. We found differences in size, surface charge, thermal and chemical properties, and biodegradability in soil between MNPs prepared from cryogenically treated vs. environmentally weathered films, related to the photochemical reactions occurring in the environment that were not mimicked by cryogenic treatment, such as depolymerization and cross-link formation. We also investigated the size reduction process for NPs and found that the size distribution was bimodal, with populations centered at 50 nm and 150–300 nm, and as the size reduction process progressed, the former subpopulation's proportion increased. The biodegradability of MPs in soil was greater than for NPs, a counter-intuitive trend since greater surface area exposure for NPs would increase biodegradability. The result isassociated with differences in surface and chemical properties and to minor components that are readily leached out during the formation of NPs. In summary, the use of weathered plastics as feedstock would likely produce MNPs that are more realistic than cryogenically-treated unweathered films for use in experimental studies.

Original languageEnglish
Article number161867
JournalScience of the Total Environment
Volume870
DOIs
StatePublished - Apr 20 2023

Funding

The authors gratefully acknowledge the financial support provided through the USDA (Grant 2020-67019-31167), the Herbert College of Agriculture, the Biosystems Engineering and Soil Department, and the Science Alliance at the University of Tennessee, Knoxville, TN for this research. The initial feedstocks for preparing MNPs of PBAT-based biodegradable mulch film were kindly provided by BioBag Americas, Inc. (Dunevin, FL, USA). Ms. Marife B. Anunciado (Univ. California-Davis) and Ms. Danielle Cowan-Banker provided technical assistance for the soil biodegradation studies. Ms. Ella Knight contributed toward the laboratory experimental work. The authors gratefully acknowledge the financial support provided through the USDA (Grant 2020-67019-31167 ), the Herbert College of Agriculture , the Biosystems Engineering and Soil Department , and the Science Alliance at the University of Tennessee, Knoxville , TN for this research. The initial feedstocks for preparing MNPs of PBAT-based biodegradable mulch film were kindly provided by BioBag Americas, Inc. (Dunevin, FL, USA). Ms. Marife B. Anunciado (Univ. California-Davis) and Ms. Danielle Cowan-Banker provided technical assistance for the soil biodegradation studies. Ms. Ella Knight contributed toward the laboratory experimental work.

FundersFunder number
BioBag Americas, Inc.
Biosystems Engineering and Soil Department
Herbert College of Agriculture
U.S. Department of Agriculture2020-67019-31167
University of Tennessee

    Keywords

    • Biodegradable mulch films
    • Biodegradation
    • Environmental weathering
    • Microplastics
    • Nanoplastics
    • Plastic pollution
    • Polybutylene adipate terephthalate
    • Polylactic acid

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