Keyword search (4,163 papers available)

"microplastics" Keyword-tagged Publications:

Title Authors PubMed ID
1 From water to sediment: A meta-analysis of microplastic distribution and the impact of dams in reservoir ecosystems Gao W; Zhang P; Wang H; Yang X; An C; 41215774
ENCS
2 Revealing the Freezing-Induced Alteration in Microplastic Behavior and Its Implication for the Microplastics Released from Seasonal Ice Chen Z; Elektorowicz M; An C; Tian X; Wang Z; Yang X; Lyu L; 39031076
ENCS
3 Navigating the nexus: climate dynamics and microplastics pollution in coastal ecosystems Ahmed Dar A; Chen Z; Sardar MF; An C; 38642636
ENCS
4 Effect of nanobubbles on the mobilization of microplastics in shorelines subject to seawater infiltration Wang Z; Lee K; Feng Q; An C; Chen Z; 38604304
ENCS
5 Unveiling the Vertical Migration of Microplastics with Suspended Particulate Matter in the Estuarine Environment: Roles of Salinity, Particle Properties, and Hydrodynamics Yang X; Huang G; Feng Q; An C; Zhou S; Bi H; Lyu L; 38306690
ENCS
6 Overlooked Role of Bulk Nanobubbles in the Alteration and Motion of Microplastics in the Ocean Environment Wang Z; An C; Lee K; Feng Q; 37477614
ENCS
7 Insights into the abiotic fragmentation of biodegradable mulches under accelerated weathering conditions Cai M; Qi Z; Guy C; An C; Chen X; Wang Z; Feng Q; 37104954
ENCS
8 Tide-induced infiltration and resuspension of microplastics in shorelines: Insights from tidal tank experiments Feng Q; Chen Z; An C; Yang X; Wang Z; 37084574
ENCS
9 Entrainment and Enrichment of Microplastics in Ice Formation Processes: Implications for the Transport of Microplastics in Cold Regions Chen Z; Elektorowicz M; An C; Tian X; 36780450
ENCS
10 Aggregation of microplastics and clay particles in the nearshore environment: Characteristics, influencing factors, and implications Yang X; An C; Feng Q; Boufadel M; Ji W; 36113238
ENCS
11 Transport of Microplastics in Shore Substrates over Tidal Cycles: Roles of Polymer Characteristics and Environmental Factors Feng Q; Chen Z; Greer CW; An C; Wang Z; 35658111
ENCS
12 Physicochemical change and microparticle release from disposable gloves in the aqueous environment impacted by accelerated weathering Wang Z; An C; Lee K; Chen X; Zhang B; Yin J; Feng Q; 35395312
ENCS
13 Investigation into the impact of aged microplastics on oil behavior in shoreline environments Feng Q; An C; Chen Z; Yin J; Zhang B; Lee K; Wang Z; 34332489
ENCS

 

Title:Insights into the abiotic fragmentation of biodegradable mulches under accelerated weathering conditions
Authors:Cai MQi ZGuy CAn CChen XWang ZFeng Q
Link:https://pubmed.ncbi.nlm.nih.gov/37104954/
DOI:10.1016/j.jhazmat.2023.131477
Publication:Journal of hazardous materials
Keywords:Accelerated weatheringBiodegradable mulchesDissolved organic matterFragmentationMicroplastics
PMID:37104954 Category: Date Added:2023-04-28
Dept Affiliation: ENCS
1 Department of Building, Civil and Environmental Engineering, Faculty of Engineering and Computer Science, Concordia University, Montreal H3G 1M8, Canada.
2 Department of Bioresource Engineering, McGill University, Sainte-Anne-de-Bellevue H9X 3V9, Canada.
3 University of Technology of Compiègne, Compiègne 60200, France.
4 Department of Building, Civil and Environmental Engineering, Faculty of Engineering and Computer Science, Concordia University, Montreal H3G 1M8, Canada. Electronic address: chunjiang.an@concordia.ca.
5 Department of Civil Engineering, University of Texas at Arlington, Arlington 76019, USA.

Description:

Biodegradable mulches (BMs) can be tilled into soils to mitigate disposal and environmental problems. However, the content of biodegradable microplastics (BMPs) would increase with the addition of biodegradable macroplastics (BMaPs). The fragmented particles have a strong affinity to soil pollutants, having the potential to transfer via the terrestrial food web in an agroecosystem. Based on the spectral analysis and particle size analysis, this study explored the physicochemical characteristics of weathered BMaPs and BMP-derived dissolved organic matter (DOMBMP). Ultraviolet (UV) irradiation reduced the mechanical strength of BMaPs and induced oxygenated functional groups, thus increasing surface roughness and hydrophilicity. This promoted the adsorption of aromatic compounds and heavy metals from soils to BMPs. After entering the water environment, the pH of the solution with DOMBMP decreased, whereas the concentration of dissolved organic carbon (DOC) increased. Compared with paper mulch, bioplastic mulch contributed a higher amount of DOMBMP, such as aromatic structure-containing chemicals and carboxylic acids, to the water environment but released fewer and smaller plastic particles. The findings from this study can help manage environmental risks and determine disposal strategies after the use of mulching.





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