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Response of soybean and maize roots and soil enzyme activities to biodegradable microplastics contaminated soil

Ecotoxicology and Environmental Safety 2023 67 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.

Xiaomei Yang, Violette Geissen, Xiaomei Yang, Xiaomei Yang, Yan Wang, Yan Wang, Yao Yu, Yao Yu, Darrell W.S. Tang, Darrell W.S. Tang, Yao Yu, Xiaomei Yang, Xiaomei Yang, Darrell W.S. Tang, Yao Yu, Violette Geissen, Yanhua Chen, Xiaomei Yang, Xiaomei Yang, Xiaomei Yang, Xiaomei Yang, Xiaomei Yang, Xiaomei Yang, Xiaomei Yang, Darrell W.S. Tang, Darrell W.S. Tang, Darrell W.S. Tang, Darrell W.S. Tang, Xiaomei Yang, Xiaomei Yang, Xiaomei Yang, Yao Yu, Xiaomei Yang, Xiaomei Yang, Yao Yu, Yanhua Chen, Yanhua Chen, Xiaomei Yang, Yan Wang, Yan Wang, Yan Wang, Yan Wang, Xiaomei Yang, Darrell W.S. Tang, Xiaomei Yang, Yanhua Chen, Violette Geissen, Xiaomei Yang, Xiaomei Yang, Yan Wang, Yan Wang, Darrell W.S. Tang, Darrell W.S. Tang, Xiaomei Yang, Xiaomei Yang, Darrell W.S. Tang, Xiaomei Yang, Darrell W.S. Tang, Yan Wang, Yan Wang, Xiaomei Yang, Yao Yu, Xiaomei Yang, Yan Wang, Sha Xue Sha Xue, Darrell W.S. Tang, Sha Xue, Sha Xue, Sha Xue, Sha Xue, Sha Xue, Sha Xue, Xiaomei Yang, Xiaomei Yang, Xiaomei Yang, Xiaomei Yang, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Yan Wang, Yanhua Chen, Yanhua Chen, Sha Xue Sha Xue Sha Xue Sha Xue Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Sha Xue, Violette Geissen, Xiaomei Yang, Sha Xue, Sha Xue, Xiaomei Yang, Violette Geissen, Sha Xue, Violette Geissen, Mengjuan Liu, Mengjuan Liu, Violette Geissen, Violette Geissen, Mengjuan Liu, Yao Yu, Violette Geissen, Darrell W.S. Tang, Mengjuan Liu, Mengjuan Liu, Sha Xue Sha Xue Violette Geissen, Violette Geissen, Mengjuan Liu, Mengjuan Liu, Mengjuan Liu, Violette Geissen, Sha Xue Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Sha Xue Violette Geissen, Violette Geissen, Yan Wang, Xiaomei Yang, Yao Yu, Xiaomei Yang, Darrell W.S. Tang, Darrell W.S. Tang, Xiaomei Yang, Sha Xue, Xiaomei Yang, Violette Geissen, Violette Geissen, Xiaomei Yang, Violette Geissen, Yanhua Chen, Violette Geissen, Violette Geissen, Violette Geissen, Sha Xue, Xiaomei Yang, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Mengjuan Liu, Yanhua Chen, Violette Geissen, Xiaomei Yang, Violette Geissen, Xiaomei Yang, Violette Geissen, Violette Geissen, Violette Geissen, Sha Xue Violette Geissen, Xiaomei Yang, Violette Geissen, Violette Geissen, Sha Xue Xiaomei Yang, Violette Geissen, Violette Geissen, Xiaomei Yang, Xiaomei Yang, Violette Geissen, Sha Xue Sha Xue, Xiaomei Yang, Darrell W.S. Tang, Violette Geissen, Sha Xue, Violette Geissen, Violette Geissen, Violette Geissen, Xiaomei Yang, Violette Geissen, Violette Geissen, Violette Geissen, Yanhua Chen, Yanhua Chen, Violette Geissen, Yanhua Chen, Sha Xue, Violette Geissen, Yanhua Chen, Yanhua Chen, Yanhua Chen, Violette Geissen, Sha Xue Violette Geissen, Yanhua Chen, Violette Geissen, Violette Geissen, Violette Geissen, Violette Geissen, Yanhua Chen, Sha Xue, Sha Xue

Summary

Researchers tested how biodegradable microplastics from PBAT plastic film affect soybean and maize root growth and soil health. They found that higher concentrations of these microplastics in soil reduced root length, surface area, and biomass in soybean by up to 34%, while also altering key soil enzyme activities. The study suggests that even biodegradable plastic residues in agricultural soil may disrupt plant growth and nutrient cycling.

Polymers

Although biodegradable plastic film is a promising alternative product for reducing polyethylene plastic pollution in agricultural soils, the effects of its residues on plant growth and soil properties remain unclear. In this study, we conducted an experiment to investigate root properties and soil enzyme activities in Poly (butylene adipate-co-terephthalate) microplastics (PBAT-MPs) contaminated soil (0 % (CK), 0.1 %, 0.2 %, 0.5 % and 1 % of dry soil weight) with soybean (Glycine max (Linn.) Merr.) and maize (Zea mays L.). The results show that PBAT-MP accumulation in soil negatively affects root growth, and alter soil enzyme activities, which may then constrain C/N cycling and potential yields. For soybean, the total root length, total root surface area and root biomass decreased by 34 %- 58 %, 34 %- 54 % and 25 %- 40 % at the harvesting stage compared to CK, respectively. The negative effects of PBAT-MPs on maize roots were greater than on soybean roots. The total root length, root surface area and root biomass of maize decreased by 37 %- 71 %, 33 %- 71 % and 24 %- 64 % at the tasseling and harvesting stage, respectively (p < 0.05). Furthermore, a statistical analysis of the data indicates that the inhibition of soybean and maize root growth by PBAT-MP accumulation was mediated by the significantly different impacts of PBAT-MP addition on C-enzyme (β-xylosidase, cellobiohydrolase, β-glucosidase) and N-enzyme activities (leucine-aminopeptidase, N-acetyl-β-glucosaminidase, alanine aminotransferase) in rhizosphere and non-rhizosphere soil, possibly due to interactions with plant-specific root exudates and microbial communities. These findings show the potential risks posed by biodegradable microplastics on the plant-soil system, and suggest that biodegradable plastic film should be applied with caution.

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