Improvement of Saline-Alkali Soil and Straw Degradation Efficiency in Cold and Arid Areas Using Klebsiella sp. and Pseudomonas sp.
文献类型: 外文期刊
作者: Zhao, Xiaoyu 1 ; Yu, Xiaofang 1 ; Gao, Julin 1 ; Qu, Jiawei 1 ; Borjigin, Qinggeer 1 ; Meng, Tiantian 3 ; Li, Dongbo 1 ;
作者机构: 1.Inner Mongolia Agr Univ, Inner Mongolia Autonomous Reg Engn Res Ctr In Situ, Hohhot 010010, Peoples R China
2.Inner Mongolia Acad Agr & Anim Husb Sci, Inst Maize Res, Hohhot 010031, Peoples R China
3.Hebei Agr Univ, Coll Agron, Baoding 071001, Peoples R China
关键词: low temperature; saline-alkali soil; degradation bacteria; straw degradation; soil factor
期刊名称:AGRONOMY-BASEL ( 影响因子:3.4; 五年影响因子:3.8 )
ISSN:
年卷期: 2024 年 14 卷 11 期
页码:
收录情况: SCI
摘要: Corn straw is an important renewable resource, which could improve the quality of saline-alkali cultivated land. However, the slow decomposition of crop residues in cold, arid, and saline-alkali soils can lead to serious resource waste and ecological crises. The use of beneficial microorganisms with degradation functions could solve these problems. In this study, three types of saline-alkali soil with low, medium, and high salinity levels were used in the straw-returning experiment. The experiment was conducted with four treatments: GF2 (Klebsiella sp.), GF7 (Pseudomonas sp.), GF2+GF7, and CK (control without bacteria). Microbial characteristics, straw degradation efficiency, element release rate, and soil factors were compared, and random forest linear regression and partial least squares path modeling analysis methods were utilized. The results indicated that the degradation of bacterial metabolites, the efficiency of corn stover degradation, the efficiency of component degradation, and the release rates of elements (C, N, P, and K) initially increased and then decreased with the increase in salinity. At the maximum value of moderately saline-alkali soil, the effect of GF2+GF7 treatment was significantly better than that of other treatments (p < 0.05). Given the interactive effects of saline-alkali soil and microbial factors, the application of exogenous degrading bacteria could significantly increase soil enzyme activity and soil available nutrients, as well as regulate the salt-alkali ion balance in soil. The cation exchange capacity (9.13%, p < 0.01) was the primary driving force for the degradation rate of straw in saline-alkali soil with different degrees of salinization under the influence of exogenous degrading bacteria. Straw decomposition directly affected the soil chemical properties and indirectly affected soil enzyme activity. The results of this study would provide new strategies and insights into the utilization of microbial resources to promote straw degradation.
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