Biogas slurry application could potentially reduce N2O emissions and increase crop yield

The huge excrement quantity from the increasing large-scale livestock stressed the ecological, environmental deterioration. As a major benefit for handling livestock manure, the slurry of biogas (BS) is developed during the production of biogas that might increase plant productivity. However, nitrou...

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Bibliographic Details
Published inThe Science of the total environment Vol. 778; p. 146269
Main Authors Rahaman, Md Arifur, Zhang, Qingwen, Shi, Yulong, Zhan, Xiaoying, Li, Guichun
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.07.2021
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Summary:The huge excrement quantity from the increasing large-scale livestock stressed the ecological, environmental deterioration. As a major benefit for handling livestock manure, the slurry of biogas (BS) is developed during the production of biogas that might increase plant productivity. However, nitrous oxide (N2O) emissions from BS are considered a significant danger to the environment due to global warming potential. Furthermore, applying different proportions of BS combined with chemical fertilizer (CF) on N2O productions in the North China Plain (NCP) remains unclear. Herein, two sequential field trials were performed by maize-wheat rotations to substitute the CF by BS and reduce N2O emissions while keeping the crop yield stable. Four treatments were conducted, including T1, T3, T6, and CK. A total of 226.5 kg N ha−1 used in the maize-wheat rotation system. Additionally, different ratios of BS (100%, 80%, and 50%) combined with CF were used in wheat season in the tillering stage. Results showed integrated applications of BS with CF have potential for reducing N2O emission. Our findings showed that the maximum grain yield of CF was 6250 kg ha−1, which might be achieved by applying 38% BS and 62% of CF. This ratio yielded 1.03 kg ha−1 N2O emissions, which was 15% lesser than the N2O emission of CK, 1.21 kg ha−1. Considering whole growing period of wheat biogas treatments significantly reduced the cumulative N2O emissions from 17% to 26% compared to CF. To achieve maximum yield and minimum N2O emissions, an optimum 38% BS ratio has been suggested. The integrated use of BS and CF provided the greatest grain yield because of necessary nutrients provided by both slurry and CF. Consequently, N2O emissions reduced based on frequency and type of fertilizer. In conclusion, 38% ratio of BS combined with 62% CF would be a suitable approach to mitigate N2O emission and simultaneously increase crop yield in NCP. [Display omitted] •Biogas slurry application could potentially reduce N2O emissions and increase crop yield•The crop yield and N2O emission reduced following the increasing ratio of biogas slurry•To achieve the maximum yield and lowest N2O emissions, an optimum 38% ratio of biogas slurry has been recommended•Nitrous oxide emissions reduced depending on the frequency of fertilizer and fertilizer type•N2O emission from fertilizers largely depends on soil properties, irrigation, rainfall, and temperature
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2021.146269