Microbial response mechanisms of organic nitrogen substitution for optimizing tobacco yield and quality: the key role of 50% organic nitrogen
Yongjin Liang, Wuyang Cheng, Bo Peng, Jinglin Xiao, Yi He, Heyou Xiao, Rongcheng Dai, Qiu Huang, Fei Chen, Huarong Ling, Shijie He, Ruixuan Zhu, Jianyu Wei

TL;DR
This study finds that replacing 50% of chemical fertilizers with organic nitrogen improves tobacco yield and quality through beneficial changes in soil microbes.
Contribution
The study identifies 50% organic nitrogen substitution as optimal for tobacco, revealing microbial mechanisms behind improved yield and quality.
Findings
50% organic nitrogen substitution increased tobacco yield by 63.4-67.8%.
Organic nitrogen enriched beneficial microbes like Pseudomonadota and Actinomycetota.
Microbial diversity and function correlated with improved tobacco quality traits.
Abstract
Precise matching of nutrient supply with plant demand in tobacco cultivation is crucial for achieving high yield and superior quality. Traditional chemical fertilizer application modes have obvious limitations, and although organic nitrogen substitution has become an important development direction, the determination of optimal substitution ratios and their microbial regulatory mechanisms still require in-depth research. Based on previous studies, this research established refined organic nitrogen substitution experiments with treatments of 40, 50, and 60% organic nitrogen substitution at two experimental sites, systematically evaluating the effects of different substitution ratios on yield and quality of tobacco, while analyzing differences in soil microbial community composition, function, and network correlations through 16S rRNA sequencing and network analysis. Results showed that…
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Taxonomy
TopicsLegume Nitrogen Fixing Symbiosis · Soil Carbon and Nitrogen Dynamics · Ammonia Synthesis and Nitrogen Reduction
