Organic fertilizer made from food waste improves nitrogen mineralization by altering aggregate-associated microbial biomass and enzyme activities in Chinese paddy soil
文献类型: 外文期刊
作者: Wang, Jun 1 ; Wang, Feng 1 ; Dai, Wei 1 ; Wang, Shuang 1 ; Gao, Hui 3 ; Cao, Linkui 1 ; Sha, Zhimin 1 ;
作者机构: 1.Shanghai Jiao Tong Univ, Sch Agr & Biol, Shanghai 200240, Peoples R China
2.Minist Sci & Technol, Shanghai Yangtze River Delta Ecoenvironm Change &, Shanghai 200240, Peoples R China
3.Chinese Acad Fishery Sci, East China Sea Fishery Res Inst, Shanghai 200090, Peoples R China
关键词: Organic fertilizer; Soil aggregates; Nitrogen mineralization; Microbial biomass; Enzyme activities
期刊名称:JOURNAL OF SOILS AND SEDIMENTS ( 影响因子:3.536; 五年影响因子:3.821 )
ISSN: 1439-0108
年卷期:
页码:
收录情况: SCI
摘要: Purpose Fertilization can affect soil microbial biomass and enzyme activities, as well as the nitrogen (N) transformation process. The effect of organic fertilizer derived from food waste on soil aggregate-associated N mineralization, microbial biomass, and enzyme activities remains unclear. The goals of this study were to investigate how the substitution of organic fertilizer from food waste to chemical N affects N mineralization, microbial biomass, and enzyme activities in paddy soil in Eastern China.Materials and methods We ran a 148-day rice pot experiment to see how organic N affected N mineralization, enzyme activity, and microbial biomass in soil aggregates when chemical N was replaced with organic N. In this experiment, four treatments were established: no fertilizer (CK), chemical fertilizer (CF), organic fertilizer (OF), and chemical fertilizer (50% N) plus organic fertilizer (50% N) (CO). Furthermore, bulk soil was classified into three aggregate-size fractions: > 2-mm large macro-aggregates, 2-0.25-mm small macro-aggregates, and < 0.25-mm micro-aggregates.Results and discussion Organic fertilization (1) increased the proportion of > 2-mm large macro-aggregates, and the values of mean weight diameter (MWD) and geometric mean diameter (GMD) of soil aggregates, (2) increased N mineralization accumulation and the average net N mineralization rate across soil aggregate fractions, and (3) increased microbial biomass carbon (MBC) and microbial biomass nitrogen (MBN) contents but decreased MBC/MBN ratio and increased the activities of urease, protease, and arylamidase. Furthermore, when comopared to soil aggregate-size fractions, fertilization explained the most variation in soil N mineralization, microbial biomass, and enzyme activities, and N mineralization in soil aggregates was driven by microbial biomass and enzyme activities.Conclusions Our findings indicated that organic fertilizer from food waste could increase soil N mineralization by regulating aggregate-associated microbial biomass and enzyme activities, providing a promising reference for food waste recycling, sustainable agricultural practices, and paddy soil N management.
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