Optimized Nitrogen Fertilization Promoted Soil Organic Carbon Accumulation by Increasing Microbial Necromass Carbon in Potato Continuous Cropping Field
文献类型: 外文期刊
第一作者: Lv, Huidan
作者: Lv, Huidan;He, Ping;Zhao, Shicheng;Lv, Huidan;He, Ping;Zhao, Shicheng;Lv, Huidan;He, Ping;Zhao, Shicheng
作者机构:
关键词: nutrient expert; soil organic carbon fraction; microbial residue carbon; soil enzyme activity; optimizing fertilization
期刊名称:AGRONOMY-BASEL ( 影响因子:3.7; 五年影响因子:4.0 )
ISSN:
年卷期: 2024 年 14 卷 2 期
页码:
收录情况: SCI
摘要: The form and distribution of organic carbon in soil affect its stability and storage, and nitrogen (N) fertilization can affect the transformation and accumulation of soil organic carbon (SOC), whereas how the N fertilizer rate affects SOC storage by regulating its fractions in a potato continuous cropping system is unknown. A 6-year field experiment was conducted to study the effect of different N fertilizer rates (NE (Nutrient Expert) -N, NE-1/2N, NE, and NE+1/2N) on the changes in SOC and its fractions in a potato continuous cropping system in North China. Soil NO3--N gradually increased with increasing N fertilizer rates, whereas the N fertilizer rate had less effect on NH4+-N. Compared with the NE-N treatment, the increasing N fertilization increased the SOC and its components, whereas these C fractions did not continue to increase or began to decrease after N fertilization exceeded the rate applied in the NE treatment. While the increase in mineral-associated organic C (MAOC; 16.1-17.2% and 26.1-52.7% in the 0-20 cm and 20-40 cm layers, respectively) was greater than that of particulate organic C (POC; 3.7-7.4% and 11.5-16.4% in the 0-20 cm and 20-40 cm layers, respectively), the increase in bacterial necromass C (BNC; 9.2-21.8% and 28.9-40.4% in the 0-20 cm and 20-40 cm layers, respectively) was greater than that of fungal necromass C (FNC; 6.2-10.1% and 7.1-24.9% in the 0-20 cm and 20-40 cm layers, respectively). Furthermore, the increase in FNC was greater than that of BNC in the 20-40 cm layer of the same treatment. SOC was significantly and positively correlated with MAOC and FNC, and the correlation between SOC and both MNC and FNC was more significant in the 20-40 cm layer than in the 0-20 cm layer. Overall, in the potato continuous cropping system in North China, N fertilization improved SOC storage by increasing MNC to form MAOC, and optimizing N fertilization based on the NE system could better balance the increase and mineralization loss of SOC to achieve high SOC sequestration.
分类号:
- 相关文献
作者其他论文 更多>>
-
Genomic diversity, population structure, and genome-wide association reveal genetic differentiation and trait improvements in mango
作者:Ma, Xiaowei;Wu, Hongxia;Wang, Songbiao;Zhang, Yuehua;Su, Muqing;Zheng, Bin;Xu, Wentian;Ma, Xiaowei;Wu, Hongxia;Wang, Songbiao;Zhang, Yuehua;Su, Muqing;Zheng, Bin;Xu, Wentian;Ma, Xiaowei;Wu, Hongxia;Wang, Songbiao;Zhang, Yuehua;Su, Muqing;Zheng, Bin;Xu, Wentian;Liu, Bin;Pan, Hongbing;Du, Bang;Wang, Jun;He, Ping;Chen, Qianfu;An, Hong;Luo, Xiang
关键词:
-
Response of soil microbial properties in the life cycle of potatoes to organic substitution regimes in North China
作者:Wang, Xiya;Zhao, Shicheng;Xu, Xinpeng;Liu, Mengjiao;He, Ping;Zhou, Wei;Wang, Xiya;Zhao, Shicheng;Xu, Xinpeng;Liu, Mengjiao;He, Ping;Zhou, Wei;Jiang, Rong;Zhang, Jun;Duan, Yu;He, Ping;Zhou, Wei
关键词:Organic substitution regime; Potato growth period; Soil chemistry properties; Soil microbial diversity; Soil microbial network
-
Benefits and trade-offs of replacing inorganic fertilizer by organic substrate in crop production: A global meta-analysis
作者:Wang, Xiya;Liu, Mengjiao;Cui, Jiwen;Fang, Kangrui;Zhao, Shicheng;He, Ping;Zhou, Wei;Wang, Xiya;Liu, Mengjiao;Cui, Jiwen;Fang, Kangrui;Zhao, Shicheng;He, Ping;Zhou, Wei;Ciampitti, Ignacio A.;Zhou, Wei
关键词:Organic substitution regimes; Crop productivity; Soil carbon and nitrogen losses; Biofertility; Trade-offs
-
Exploring management strategies to improve yields and reduce reactive nitrogen emissions in a summer maize-winter wheat cropping system under long-term climate variability
作者:Huang, Shaohui;Yang, Junfang;Xing, Suli;Yang, Wenfang;Yang, Yunma;Jia, Liangliang;Huang, Shaohui;He, Ping
关键词:DNDC model; reactive nitrogen emissions; sensitivity analysis; winter wheat-summer maize rotation
-
Modelling adaptation measures to improve maize production and reduce soil N2O emissions under climate change in Northeast China
作者:Fan, Daijia;Song, Daping;Jiang, Rong;Shi, Yaoyao;Zou, Guoyuan;He, Wentian;He, Ping;Pan, Zhaolong
关键词:Maize yield; N 2 O emissions; DNDC model; Climate change; Adaptation strategies
-
Organic substitution regime with optimized irrigation improves potato water and nitrogen use efficiency by regulating soil chemical properties rather than microflora structure
作者:Wang, Xiya;Yang, Binggeng;Zhao, Shicheng;Liu, Mengjiao;Xu, Xinpeng;He, Ping;Zhou, Wei;Wang, Xiya;Zhao, Shicheng;Liu, Mengjiao;Xu, Xinpeng;He, Ping;Zhou, Wei;Jiang, Lingling;Jiang, Rong;Zhang, Jun;Duan, Yu
关键词:Water-nitrogen coupling; Water use efficiency; Nitrogen use efficiency; Soil chemical properties; Soil microflora structure
-
Global impact of enhanced-efficiency fertilizers on vegetable productivity and reactive nitrogen losses
作者:Pan, Zhaolong;He, Ping;Song, Lei;Zhou, Wei;Pan, Zhaolong;Fan, Daijia;Jiang, Rong;Song, Daping;He, Wentian
关键词:Vegetable system; Enhanced-efficiency fertilizers; Nitrification inhibitor; Polymer-coated urea; Reactive nitrogen lose
