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Automated identification and quantification of invisible microplastics in agricultural soils

The Science of The Total Environment 2022 166 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Libo Xu, Jie Wang Libo Xu, Kang Li, Jie Wang Jie Wang Jie Wang Libo Xu, Weiqian Jia, Mengjun Zhang, Aleksandra Karapetrova, Aleksandra Karapetrova, Aleksandra Karapetrova, Aleksandra Karapetrova, Aleksandra Karapetrova, Weiqian Jia, Kang Li, Jie Wang Jie Wang Jie Wang Kang Li, Jie Wang Kang Li, Jie Wang Kang Li, Jie Wang Libo Xu, Yi Huang, Yi Huang, Libo Xu, Libo Xu, Libo Xu, Muke Huang, Aleksandra Karapetrova, Aleksandra Karapetrova, Aleksandra Karapetrova, Kang Li, Libo Xu, Jie Wang Jie Wang Libo Xu, Libo Xu, Weiqian Jia, Weiqian Jia, Aleksandra Karapetrova, Aleksandra Karapetrova, Aleksandra Karapetrova, Muke Huang, Weiqian Jia, Weiqian Jia, Mengjun Zhang, Mengjun Zhang, Mengjun Zhang, Kang Li, Jie Wang Mengjun Zhang, Weiqian Jia, Mengjun Zhang, Jie Wang Kang Li, Libo Xu, Weiqian Jia, Kang Li, Weiqian Jia, Kang Li, Weiqian Jia, Libo Xu, Libo Xu, Weiqian Jia, Weiqian Jia, Weiqian Jia, Jie Wang Jie Wang Jie Wang Jie Wang Kang Li, Mengjun Zhang, Mengjun Zhang, Mengjun Zhang, Jie Wang Kang Li, Libo Xu, Weiqian Jia, Libo Xu, Kang Li, Weiqian Jia, Weiqian Jia, Kang Li, Jie Wang Jie Wang Yi Huang, Yi Huang, Yi Huang, Yi Huang, Jie Wang Jie Wang Jie Wang Jie Wang Jie Wang Kang Li, Kang Li, Mengjun Zhang, Mengjun Zhang, Mengjun Zhang, Mengjun Zhang, Mengjun Zhang, Weiqian Jia, Weiqian Jia, Weiqian Jia, Muke Huang, Weiqian Jia, Weiqian Jia, Weiqian Jia, Muke Huang, Yi Huang, Jie Wang Jie Wang Jie Wang Muke Huang, Mengjun Zhang, Kang Li, Yi Huang, Muke Huang, Mengjun Zhang, Mengjun Zhang, Muke Huang, Yi Huang, Jie Wang Yi Huang, Muke Huang, Yi Huang, Mengjun Zhang, Jie Wang Jie Wang Jie Wang Yi Huang, Yi Huang, Yi Huang, Jie Wang Yi Huang, Yi Huang, Yi Huang, Yi Huang, Jie Wang Yi Huang, Yi Huang, Yi Huang, Yi Huang, Jie Wang Yi Huang, Jie Wang Yi Huang, Jie Wang Yi Huang, Jie Wang Jie Wang Jie Wang Jie Wang Yi Huang, Jie Wang Jie Wang Yi Huang, Jie Wang Jie Wang Jie Wang

Summary

Researchers developed an automated method combining laser direct infrared and FTIR spectroscopy to identify microplastics in agricultural soils, revealing that particles smaller than 500 micrometers account for over 96% of soil microplastics that are invisible to traditional visual inspection.

Polymers

PA PE PP PTFE PVC

Microplastics in agricultural soils have become the research hotspot in recent years, however, the quantitative methods based on the traditional visual inspection may have a high false detection rate. Here we combined the laser direct infrared (LDIR) and Fourier-transform infrared (FTIR) methods to investigate the microplastics in farmland with long-term agricultural activities. The results showed that the total abundance of microplastics reached 1.98 ± 0.41 × 10, 1.57 ± 0.28 × 10, 1.78 ± 0.27 × 10, and 3.20 ± 0.41 × 10 particles/kg soil in cotton fields with film mulching of 5, 10, 20, and >30 years, respectively. LDIR results indicated that microplastics ranging from 10 to 500 μm accounted for 96.5-99.9 % of the total microplastic amounts in the soils. Additionally, a total of 26 polymer types of microplastics were detected, among which polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), polyamide (PA), and polytetrafluoroethylene (PTFE) were dominantly observed. For the microplastics detected by FTIR (500 μm-5 mm), PE polymer was majorly observed (88.0-98.9 %). Most microplastics were films (88.2 %), while fibers and pellets were also found. The reclaimed water from sewage treatment plants, the drip irrigation utilities, and the residual plastic film are the potential sources of microplastics in the farmland soils. By using the automated quantitative and identifiable approaches, this study suggested that the commonly used visual counting method may underestimate the microplastic contamination in agricultural soils.

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