Dynamics of nitrogen mineralization and nitrogen cycling functional genes in response to soil pore size distribution
文献类型: 外文期刊
第一作者: Li, Danni
作者: Li, Danni;Yao, Shuihong;Meng, Yili;Li, Danni;Huang, Shan;Li, Yi;Peng, Xianlong;Zhou, Hu
作者机构:
关键词: Mollisols; Ferralsols; Paddy soil; Nitrogen mineralization; Soil pores; Nitrogen cycling functional genes
期刊名称:EUROPEAN JOURNAL OF SOIL BIOLOGY ( 影响因子:3.3; 五年影响因子:4.1 )
ISSN: 1164-5563
年卷期: 2024 年 123 卷
页码:
收录情况: SCI
摘要: Soil pore distribution influences the permeability of gas, water, and solutes, affecting microbial activities such as nitrogen (N) mineralization. Understanding its impact on N mineralization and the subsequent N transformations is essential for managing compacted paddy soils. This study conducted incubation experiments on two paddy soils from typical Chinese rice regions, Northeastern meadow chernozemic Mollisols, and Southern umbric Ferralsols, under three bulk densities (1.0 g cm(-3), 1.2 g cm(-3), and 1.4 g cm(-3)) to investigate the effects of soil porosity on N mineralization and N cycling functional genes. Although the cumulative mineralized N showed no significant difference, with increased macropores (>100 mu m) and mesopores (30-100 mu m), Ferralsols exhibited a significantly higher net N mineralization rate from day 0 to day 7, while Mollisols extended the mineralization after day 21. Soil dissolved organic carbon (DOC) had a similar temporal trend to the net N mineralization rate, suggesting DOC was the product of mineralization. Soil microbial biomass carbon (MBC) showed an opposite temporal trend to the net N mineralization rate in Mollisols, suggesting microbial biomass as a key N source for mineralization. Soil pores distribution did not affect nitrification under waterlogged conditions, but it affected nirK, nirS and nosZ genes by altering redox potential and substrates availability in the pore micro-environment. Overall, soil pores over 30 mu m were the key pore size ranges affecting the intensity and duration of N mineralization, with different effects on DOC, MBC, and N cycling functional genes in Mollisols and Ferralsols. These findings emphasized the role of pore size in regulating N transformation in waterlogged conditions, contributing to the understanding of the N availability in compacted paddy soils from typical geographic rice-growing regions.
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