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Effects of microplastics and nitrogen deposition on soil multifunctionality, particularly C and N cycling

Journal of Hazardous Materials 2023 131 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.

Fayuan Wang Xuebo Zheng, Yuhuan Sun, Fayuan Wang Fayuan Wang Shuwu Zhang, Fayuan Wang Fayuan Wang Fayuan Wang Fayuan Wang Fayuan Wang Shuwu Zhang, Yuhuan Sun, Shuwu Zhang, Fayuan Wang Lei Pei, Lei Pei, Lei Pei, Jun Shan, Fayuan Wang Fayuan Wang Fayuan Wang Lei Pei, Fayuan Wang Fayuan Wang Fayuan Wang Yanxin Zhao, Fayuan Wang Fayuan Wang Fayuan Wang Fayuan Wang Fayuan Wang Fayuan Wang Fayuan Wang Shuwu Zhang, Shuwu Zhang, Yuhuan Sun, Yuhuan Sun, Lei Pei, Yanxin Zhao, Yuhuan Sun, Yuhuan Sun, Lei Pei, Shuwu Zhang, Shuwu Zhang, Shuwu Zhang, Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Fayuan Wang Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Fayuan Wang Guangjian Xu, Guangjian Xu, Shuwu Zhang, Guangjian Xu, Jun Shan, Fayuan Wang Fayuan Wang Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Fayuan Wang Yuhuan Sun, Yuhuan Sun, Shuwu Zhang, Shuwu Zhang, Guangjian Xu, Fayuan Wang Shuwu Zhang, Shuwu Zhang, Shuwu Zhang, Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Xuebo Zheng, Xuebo Zheng, Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Shuwu Zhang, Fayuan Wang Fayuan Wang Fayuan Wang Fayuan Wang Shuwu Zhang, Shuwu Zhang, Fayuan Wang Yuhuan Sun, Yuhuan Sun, Shuwu Zhang, Yuhuan Sun, Fayuan Wang Guangjian Xu, Yuhuan Sun, Yuhuan Sun, Jun Shan, Yuhuan Sun, Guangjian Xu, Fayuan Wang Fayuan Wang Shuwu Zhang, Yuhuan Sun, Yuhuan Sun, Shuwu Zhang, Guangjian Xu, Fayuan Wang Fayuan Wang Fayuan Wang Yuhuan Sun, Fayuan Wang Yuhuan Sun, Yuhuan Sun, Yuhuan Sun, Fayuan Wang Fayuan Wang Fayuan Wang Fayuan Wang Yuhuan Sun, Yuhuan Sun, Guangjian Xu, Fayuan Wang Fayuan Wang

Summary

Researchers conducted a 10-month soil incubation experiment to examine how polyethylene and polylactic acid microplastics interact with nitrogen deposition to affect soil function. The study found that microplastics modified both carbon and nitrogen cycling processes, with polyethylene enriching bacteria involved in nitrate processing and polylactic acid enhancing nitrogen-fixing bacteria. Evidence indicates that the combined effects of microplastics and nitrogen deposition on soil ecosystem functions are more complex than either stressor alone.

Polymers

PE PLA

Both nitrogen deposition (ND) and microplastics (MPs) pose global change challenges. The effects of MPs co-existing with ND on ecosystem functions are still largely unknown. Herein, we conducted a 10-month soil incubation experiment to explore the effects of polyethylene (PE) and polylactic acid (PLA) MPs on soil multifunctionality under different ND scenarios. We found that the interactions between ND and MPs affected soil multifucntionality. FAPROTAX function prediction indicated that both ND and MPs affected C and N cycling. ND increased some C-cycling processes, such as cellulolysis, ligninolysis, and plastic degradation. MPs also showed stimulating effects on these processes, particularly in the soil with ND. ND significantly decreased the abundance of functional genes NifH, amoA, and NirK, leading to inhibited N-fixation, nitrification, and denitrification. The addition of MPs also modified N-cycling processes: 0.1% PE enriched the bacterial groups for nitrate reduction, nitrate respiration, nitrite respiration, and nitrate ammonification, and 1% PLA MPs enriched N-fixation bacteria at all ND levels. We found that ND caused lower soil pH but higher soil N, decreased bacterial diversity and richness, and changed the composition and activity of functional bacteria, which explains why ND changed soil functions and regulated the impact of MPs.

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