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Presence of microplastics alone and co-existence with hydrochar unexpectedly mitigate ammonia volatilization from rice paddy soil and affect structure of soil microbiome

Journal of Hazardous Materials 2021 77 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Yuanyuan Feng, Mingming Sun, Yuanyuan Feng, Yuanyuan Feng, Yuanyuan Feng, Yuanyuan Feng, Lanfang Han, Lanfang Han, Lanfang Han, Lanfang Han, Lanfang Han, Lanfang Han, Lanfang Han, Lanfang Han, Lanfang Han, Lanfang Han, Yuanyuan Feng, Yuanyuan Feng, Yuanyuan Feng, Yanfang Feng, Yanfang Feng, Yanfang Feng, Mingming Sun, Yuanyuan Feng, Yuanyuan Feng, Yanfang Feng, Lanfang Han, Lanfang Han, Lanfang Han, Lanfang Han, Baoshan Xing, Yanfang Feng, Lanfang Han, Yuanyuan Feng, Lanfang Han, Lanfang Han, Baoshan Xing Lanfang Han, Baoshan Xing, Detian Li, Detian Li, Yanfang Feng, Baoshan Xing, Lanfang Han, Lanfang Han, Lanfang Han, Yanfang Feng, Yuanyuan Feng, Yuanyuan Feng, Lanfang Han, Lanfang Han, Gérrard Eddy Jai Poinern, Yuanyuan Feng, Baoshan Xing Yanfang Feng, Lanfang Han, Baoshan Xing Lihong Xue, Yuanyuan Feng, Yuanyuan Feng, Yanfang Feng, Detian Li, Detian Li, Lihong Xue, Baoshan Xing Baoshan Xing Yuanyuan Feng, Lanfang Han, Yuanyuan Feng, Lihong Xue, Baoshan Xing Yanfang Feng, Lanfang Han, Yanfang Feng, Baoshan Xing Mingming Sun, Baoshan Xing Yuanyuan Feng, Lanfang Han, Baoshan Xing Baoshan Xing Lanfang Han, Baoshan Xing, Baoshan Xing, Yuanyuan Feng, Lihong Xue, Yuanyuan Feng, Baoshan Xing Xin Wei Wang, Lihong Xue, Yuanyuan Feng, Yuanyuan Feng, Baoshan Xing Baoshan Xing Lanfang Han, Baoshan Xing Yanfang Feng, Baoshan Xing Baoshan Xing Yuanyuan Feng, Lanfang Han, Baoshan Xing Baoshan Xing Baoshan Xing, Lihong Xue, Baoshan Xing Yuanyuan Feng, Gérrard Eddy Jai Poinern, Baoshan Xing Yuanyuan Feng, Baoshan Xing Lihong Xue, Lihong Xue, Mingming Sun, Baoshan Xing Baoshan Xing, Yanfang Feng, Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing, Baoshan Xing, Yanfang Feng, Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Yanfang Feng, Yanfang Feng, Yanfang Feng, Yanfang Feng, Gérrard Eddy Jai Poinern, Gérrard Eddy Jai Poinern, Yanfang Feng, Baoshan Xing Baoshan Xing Baoshan Xing, Yanfang Feng, Yanfang Feng, Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing, Baoshan Xing, Baoshan Xing Yanfang Feng, Baoshan Xing Yanfang Feng, Baoshan Xing Mingming Sun, Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Lanfang Han, Yanfang Feng, Baoshan Xing Baoshan Xing, Baoshan Xing Yanfang Feng, Baoshan Xing, Yanfang Feng, Gérrard Eddy Jai Poinern, Baoshan Xing Baoshan Xing Baoshan Xing, Baoshan Xing, Yanfang Feng, Baoshan Xing, Yanfang Feng, Baoshan Xing Baoshan Xing, Baoshan Xing, Baoshan Xing Baoshan Xing Baoshan Xing, Lihong Xue, Baoshan Xing Lanfang Han, Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing, Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing Baoshan Xing, Baoshan Xing Baoshan Xing

Summary

Microplastics added to rice paddy soil unexpectedly reduced ammonia volatilization compared to unamended controls, with combined addition of microplastics and hydrochar further altering ammonia loss patterns, and microplastics changing soil bacterial community structure in ways that may affect nitrogen cycling in irrigated agricultural ecosystems.

Polymers

PAN PE

Microplastics (MPs), as an emerging pollutant, may cause deleterious changes to the nitrogen cycle in terrestrial ecosystems. However, single impact of MPs and synergistic effects of MPs with hydrochar on ammonia (NH) volatilization and soil microbiome in paddy fields has been largely unexplored. In this study, polyethylene (PE), polyacrylonitrile (PAN) and straw-derived hydrochar (HBC) were selected for observations in an entire rice cycle growth period. Results showed that under the condition of 0.5% (w/w) MPs concentration, presence of MPs alone and co-existence of MPs and HBC (MPs + HBC) unexpectedly mitigated cumulative NH volatilization from paddy soil compared with the control with no MPs or HBC addition. MPs + HBC increased NH volatilization by 37.8-46.2% compared with MPs alone, indicating that co-existence of MPs and HBC weaken the mitigation effect of MPs on NH volatilization. Additionally, results of nitrogen cycle related microorganisms closely related to NH volatilization demonstrated that MPs + HBC altered the bacterial community structure and species diversity. These findings provide an important opportunity to advance our understanding of the impacts of MPs in agricultural environment and soils, and provide a sound theoretical basis for rationalizing the application of HBC in soil with MPs.

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