Five years nitrogen reduction management shifted soil bacterial community structure and function in high-yielding ‘super’ rice cultivation

IF 6 1区 农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY Agriculture, Ecosystems & Environment Pub Date : 2023-10-23 DOI:10.1016/j.agee.2023.108773
Juanjuan Wang , Ruqing Xie , Nanan He , Wanlu Wang , Guiliang Wang , Yanju Yang , Qing Hu , Haitao Zhao , Xiaoqing Qian
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Abstract

Integrated nitrogen (N) management has been adopted for the cultivation of ‘super’ rice to achieve high yield while minimizing environmental risks. How soil microbial communities respond to integrated N management in ‘super’ rice production remains unclear. Five years of field experiment was conducted under a wheat–rice system, with four treatments: conventional farming practices (300 kg ha–1 N), reduced (270 kg ha–1) and increase N (360 kg ha–1) application coupled with increased planting density and accurate irrigation, and a non-N control. The results showed that after five years of treatment, the predominant bacterial phyla shifted from Proteobacteria (22.99%), Acidobacteria (17.04%), and Chloroflexi (14.43%), to Proteobacteria (30.83%), Chloroflexi (20.9%), and Actinobacteria (16.07%). The structure of soil bacterial community differed among the treatments, with available phosphorus contents and pH as key drivers in the first year and NO3--N content in the fifth year. The highest soil N content was detected in the treatment with increased N application, whereas the reduction of N application led to a 32% decrease in soil NO3-N content. A greater difference was detected in N functional groups in the fifth year than the first year. Following reduced N application, there was also an increased proportion of N-transforming groups, including those involved in aerobic ammonia oxidation, aerobic nitrate oxidation, nitrate denitrification, and nitrite denitrification. Collectively, N fertilizer reduction coupled with accurate irrigation was most effective in regulating soil bacterial communities, especially those associated with N transformation in ‘super’ rice cultivation.

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五年减氮管理在高产“超级”水稻栽培中改变了土壤细菌群落结构和功能
“超级”水稻的种植采用了综合氮管理,以实现高产,同时将环境风险降至最低。在“超级”水稻生产中,土壤微生物群落对综合氮管理的反应尚不清楚。在小麦-水稻系统下进行了五年的田间试验,共有四种处理:传统农业做法(300 公斤 ha–1 N),减少(270 公斤 ha–1)并增加N(360 公斤 ha–1)施用,同时增加种植密度和精确灌溉,以及非氮控制。结果表明,经过5年的处理,主要细菌门由变形杆菌(22.99%)、不动杆菌(17.04%)和绿弯菌(14.43%)转变为变形杆菌(30.83%)、绿弯杆菌(20.9%)和放线菌(16.07%),有效磷含量和pH是第一年的主要驱动因素,NO3-N含量在第五年。增加施氮量的处理土壤氮含量最高,而减少施氮量则导致土壤NO3--N含量下降32%。第五年,N个功能组的差异比第一年更大。减少施氮后,氮转化基团的比例也增加,包括参与好氧氨氧化、好氧硝酸盐氧化、硝酸盐反硝化和亚硝酸盐反硝化的基团。总之,在“超级”水稻种植中,减少氮肥和精确灌溉对调节土壤细菌群落最为有效,尤其是与氮转化相关的细菌群落。
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来源期刊
Agriculture, Ecosystems & Environment
Agriculture, Ecosystems & Environment 环境科学-环境科学
CiteScore
11.70
自引率
9.10%
发文量
392
审稿时长
26 days
期刊介绍: Agriculture, Ecosystems and Environment publishes scientific articles dealing with the interface between agroecosystems and the natural environment, specifically how agriculture influences the environment and how changes in that environment impact agroecosystems. Preference is given to papers from experimental and observational research at the field, system or landscape level, from studies that enhance our understanding of processes using data-based biophysical modelling, and papers that bridge scientific disciplines and integrate knowledge. All papers should be placed in an international or wide comparative context.
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