Alternate wetting-drying enhances soil nitrogen availability by altering organic nitrogen partitioning in rice-microbe system
文献类型: 外文期刊
第一作者: Cao, Xiaochuang
作者: Cao, Xiaochuang;Zhang, Junhua;Kong, Yali;Jin, Qianyu;Yu, Yijun;Ma, Qingxu;Pan, Wankun;Wu, Lianghuan
作者机构:
关键词: Alternate wetting and drying; Organic nitrogen; Microbial community; C-13, N-15-glycine; C-13-PLFA
期刊名称:GEODERMA ( 影响因子:7.422; 五年影响因子:7.444 )
ISSN: 0016-7061
年卷期: 2022 年 424 卷
页码:
收录情况: SCI
摘要: Alternate wetting and drying (AWD) irrigation influences soil nutrient cycling and the functioning of soil microorganisms. However, the effects of AWD on organic nitrogen (ON) partitioning in rice-microbe ecosystems and soil microbial communities are poorly understood. A root-box microcosm experiment with two rice varieties (Nipponbare, Nip; Yangdao 6, YD6), two irrigation regimes (conventional flood irrigation (CF); AWD) and three N application levels (zero N, N0; medium N, N1; high N, N2) was performed based on the 13C,15N-labelled glycine and 13C-phospholipid fatty acids (PLFA) techniques. Compared to CF, AWD increased soil dissolved oxygen, microbial growth and the enzymes related to N transformation, thus enhancing rice growth and the N utilization index (NUI). Approximately 4.9-10.3% and 7.7-13.6% of the exogenous glycine was directly utilized by Nip and YD6 seedlings, respectively, and its ratio increased with increasing N levels, whereas 4.4-11.2% and 4.6-10.3% were incorporated into soil microbes. It seems that rice has an appreciable capacity to utilize organic N despite fierce competition with soil microbes. The 13C:15N ratio showed that 12.5-37.5% and 11.0-41.0% of the added glycine was taken up intact by soil microorganisms in the rhizospheres of Nip and YD6. At the N1 and N2 levels, AWD increased rice 15N-glycine uptake but decreased microbial 15N-glycine uptake. Rice intact glycine uptake and soil inorganic N contents were positively correlated with rice biomass and NUI, indicating that the enhanced inorganic N under AWD is beneficial for soil ON availability and rice growth. Gram-negative and general bacteria were the dominant competitors with rice for soil ON. AWD increased the contents of gram-negative bacteria and fungi and the ratio of fungi:bacteria in rhizosphere soils. Collectively, AWD creates a good rhizosphere oxygen environment for rice and microbial growth. ON partitioning in the rice-microbe system and the adaptive adjustment of the microbial community play important roles in modulating soil nutrients for optimal rice growth.
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