Soil carbon and nitrogen sequestration and crop growth as influenced by long-term application of effective microorganism compost
文献类型: 外文期刊
作者: Hu, Cheng 1 ; Xia, Xiange 1 ; Chen, Yunfeng 1 ; Han, Xuemei 2 ;
作者机构: 1.Hubei Acad Agr Sci, Inst Plant Protect & Soil Fertilizer, Wuhan 430064, Hubei, Peoples R China
2.Nanyang Normal Univ, Sch Life Sci & Technol, Nanyang 473061, Peoples R China
关键词: Compost; effective microorganism; sequestration; soil organic carbon; total nitrogen
期刊名称:CHILEAN JOURNAL OF AGRICULTURAL RESEARCH ( 影响因子:1.677; 五年影响因子:1.806 )
ISSN: 0718-5839
年卷期: 2018 年 78 卷 1 期
页码:
收录情况: SCI
摘要: Long-term excessive application of inorganic fertilizers not only wastes resources but also contaminates the environment. The use of natural substitutes could overcome these drawbacks. We hypothesize that organic fertilizers could increase soil C, N sequestration and improve soil fertility more effectively than inorganic fertilizers, and that in particular effective microorganism (EM) could improve the effects of traditional compost. So, a long-term field experiment regarding improvement of soil fertility, protecting soil environment, and increasing of maize and wheat yield was conducted at China Agricultural University's Qu-Zhou experiment station since 1993. Field experiment included EM compost treatment, traditional compost treatment, chemical fertilizer treatment, and unfertilized treatment. Soil organic C (SOC), total N, nutrient concentrations, pH, bulk density, and crop yields were determined. The results revealed that long-term repeated application of EM compost promoted soil C and N sequestration, increased soil nutrient contents, decreased soil pH and bulk density, enhanced crop yields in contrast to chemical fertilizer and control treatment. Soil organic C stocks (0-20 cm) were increased by 87.32%, 81.51%, 33.05%, 25.20% and soil total N stocks were increased by 93.26%, 77.53%, 37.64%, 34.83% in contrast to initial values in EM compost, traditional compost, chemical fertilizer and control treatments, respectively. Moreover, maize grain yields in EM compost, traditional compost, and chemical fertilizer treatments were significantly increased by 163.49%, 128.34%, 62.36% compared with control treatment, respectively. The effect of increased soil C and N sequestration, improving soil fertility and enhanced crop yields in application of compost appending EM was better than alone application of compost.
- 相关文献
作者其他论文 更多>>
-
Effect of auxiliary materials on the formation of humic acid carbon and nitrogen and bacterial dynamics in kitchen waste composting
作者:Zhan, Yabin;Chen, Yunfeng;Yang, Li;Xia, Xiange;Zhan, Yabin;Chang, Su;Chen, Yanting;Chang, Yuan;Chen, Yunfeng;Li, Ji;Wei, Yuquan;Zhan, Yabin;Chen, Yanting;Chang, Yuan;Li, Ji;Wei, Yuquan;Chen, Peizhen;Zhang, Longli
关键词:Composting; Bulking agent; Humification process; Lignocellulose fractions; Microbial community
-
Straw Addition Enhances Crop Yield, Soil Aggregation, and Soil Microorganisms in a 14-Year Wheat-Rice Rotation System in Central China
作者:Liu, Bo;Yang, Li;Chen, Yunfeng;Fan, Xianpeng;Zhang, Zhiyi;Duan, Xiaoli;Wu, Maoqian;Xia, Xiange;Xia, Hao;Jiang, Chaoqiang;Jiang, Cuncang;Riaz, Muhammad
关键词:straw application; chemical fertilizer; soil fertility soil aggregate; microbial community
-
Short-Term Straw Return Combined with Nitrogen Fertilizer Alters the Soil Nitrogen Supply in Rice-Rapeseed Planting Systems
作者:Wu, Haicheng;Zhang, Zhi;Hu, Cheng;Liu, Donghai;Qiao, Yan;Xiao, Zhuoxi;Wu, Haicheng;Wu, Yupeng
关键词:straw return; soil nitrogen cycling; rice-rapeseed planting system; bacterial community composition; nitrogen cycling gene abundance
-
Effects of combined application of animal slurry and mineral fertiliser on rice yield and soil nitrogen cycle microbes
作者:Wang, Pengcheng;Jin, Siyuan;Xiao, Henglin;Zhang, Zhi;Hu, Cheng;Qiao, Yan;Liu, Donghai;Zhang, Zhi;Guo, Xifa;Peng, Xiangrong
关键词:animal manure; waste treatment; yield response model; recycling; soil nutrient cycling
-
Phosphate additives promote humic acid carbon and nitrogen skeleton formation by regulating precursors and composting bacterial communities
作者:Su, Jing;Zhan, Yabin;Chang, Yuan;Chang, Su;Luo, Yan;Xu, Ting;Qiao, Yuhui;Li, Ji;Wei, Yuquan;Su, Jing;Zhan, Yabin;Chang, Yuan;Xu, Ting;Qiao, Yuhui;Li, Ji;Wei, Yuquan;Zhan, Yabin;Chen, Yunfeng;Yang, Li;Chen, Peizhen
关键词:Food waste; Humification; Superphosphate; Struvite; Nitrogen retention; Ammonium
-
Deciphering the carbon and nitrogen component conversion in humification process mediated by distinct microbial mechanisms in composting from different domestic organic wastes
作者:Zhan, Yabin;Chen, Yunfeng;Yang, Li;Liu, Bo;Zhan, Yabin;Li, Ruoqi;Chen, Wenjie;Chen, Yunfeng;Yang, Li;Liu, Bo;Li, Jun;Chang, Yuan;Wei, Yuquan;Li, Ji;Zhan, Yabin;Li, Ruoqi;Chen, Wenjie;Tao, Xingling;Li, Jun;Chang, Yuan;Wei, Yuquan;Li, Ji;Chen, Peizhen;Wang, Zhigang;Zhang, Hao
关键词:Food waste; Vegetable waste; Composting; Humic acid; Microbial community
-
Optimizing biochar addition for vermicomposting: a comprehensive evaluation of earthworms' activity, N2O emissions and compost quality
作者:Wu, Yupeng;Hu, Ronggui;Li, Qinfen;Zheng, Yong;Xiong, Xingjun;Chen, Yunfeng;Shaaban, Muhammad
关键词:Earthworm; Biochar addition; Nitrous oxide; Functional genes; Burrowing activity
