Improving the stability of black soil microbial communities through long-term application of biochar to optimize the characteristics of DOM components
文献类型: 外文期刊
作者: Hu, Yu 1 ; Li, Yan 3 ; Liu, Kangmeng 1 ; Shi, Chuanqi 4 ; Wang, Wei 3 ; Yang, Zhenguo 1 ; Xu, Kuifeng 1 ; Li, Shuo 2 ; Wang, Yuxian 5 ; Jin, Liang 2 ; Wei, Dan 2 ; Yan, Lilong 1 ;
作者机构: 1.Northeast Agr Univ, Sch Resources & Environm, Harbin 150030, Peoples R China
2.Beijing Acad Agr & Forestry Sci, Inst Plant Nutr Resources & Environm, Beijing 100097, Peoples R China
3.Heilongjiang Acad Black Soil Conservat & Utilizat, Harbin 150086, Peoples R China
4.Harbin Univ, Heilongjiang Prov Key Lab Cold Reg Wetland Ecol &, Harbin 150086, Peoples R China
5.Heilongjiang Acad Agr Sci, Qiqihar Branch, Qiqihar 161006, Peoples R China
关键词: Biochar; Black soil; DOM fluorescent components; Sampling period; Microplastics; Network analysis
期刊名称:BIOCHAR ( 影响因子:13.5; 五年影响因子:14.1 )
ISSN: 2524-7972
年卷期: 2025 年 7 卷 1 期
页码:
收录情况: SCI
摘要: Biochar has demonstrated to have ability to improve soil properties and boost plant productivity. However, the underlying mechanisms by which dissolved organic matter (DOM) fluorescent components and microbial communities in black soil regions contribute to plant productivity remain uncertain. To address this gap, a long-term field experiment was conducted in Northeastern China's black soil region, investigating how varying biochar application rates (0, 15.75, 31.50, and 47.25 t ha(-)1) influence DOM fluorescence properties and the composition of soil microbial communities. Employing fluorescence excitation-emission matrix-parallel factor analysis (EEM-PARAFAC) and high-throughput sequencing, the research systematically analyzed how biochar amendments influence DOM composition, fluorescence properties, microbial diversity, and their interrelations. The findings demonstrated that biochar significantly modified DOM composition, increasing the proportions of protein-like and humic substances while enhancing its aromaticity and stability. A medium application rate (31.5 t ha(-)1) notably improved alpha- and beta-diversity within the soil microbial community, optimized a co-occurrence network dominated by Proteobacteria and Acidobacteria, and facilitated key DOM transformations and nutrient cycling. In contrast, a high biochar application rate (47.25 t ha(-)1) negatively impacted the stability of microbial communities. Structural equation modeling (SEM) revealed that biochar indirectly boosted crop yields by modulating DOM fluorescence and microbial community dynamics. The insights gained from this study provide practical guidance for optimizing biochar application rates, maximizing its benefits, and mitigating potential ecological risks in black soil systems.
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