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秸秆颗粒还田对黑土不同空间微生境与CAZy功能基因特征影响

杨彦明周祎侯期任吴诗唯罗方张传玲席慧馨李爱华

沈阳农业大学学报2026，Vol.57Issue(2)：37-47,11.

沈阳农业大学学报2026，Vol.57Issue(2)：37-47,11.DOI:10.3969/j.issn.1000-1700.2026.02.005

秸秆颗粒还田对黑土不同空间微生境与CAZy功能基因特征影响

Effects of Straw Pelletization on Spatial Microenvironments and CAZy Functional Gene Profiles in Black Soils

杨彦明 ¹周祎 ²侯期任 ³吴诗唯 ³罗方 ⁴张传玲 ⁴席慧馨 ¹李爱华⁵

作者信息

1. 内蒙古农业大学农学院,呼和浩特 010018
2. 西北农林科技大学农学院,陕西杨凌 712100||通辽市农牧业科学院,内蒙古通辽 028000
3. 广西绿友农生物科技股份有限公司,南宁 530000
4. 阿荣旗农业事业发展中心,内蒙古阿荣旗 162750
5. 镇赉县乡村振兴服务中心,吉林白城 137399
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摘要

Abstract

[Objective]Straw return is an important management practice for improving soil organic carbon levels and enhancing the structure of the plough layer in black soil regions.However,conventional straw return methods generally suffer from slow decomposition rates and low utilization efficiency.Straw pelletized return aims to accelerate straw decomposition by altering its physical form.In this study,four typical black soil regions in eastern Inner Mongolia were selected as research sites.[Method]Four treatments were established:straw return(JG),straw return with microbial inoculant(JJ),straw pellet return(KL),and straw pellet return with microbial inoculant(KJ).Straw decomposition rate,soil physicochemical properties,enzyme activities,and the spatial variation of CAZy functional genes based on metagenomic analysis were investigated.Random forest and redundancy analysis were further applied to reveal the driving mechanisms.[Results]The results showed that straw decomposition rates exhibited significant spatial variation,and spatial effects were stronger than treatment effects.Soil physicochemical properties and enzyme activities were primarily clustered by spatial location,indicating that environmental background conditions played a dominant role in shaping soil microenvironments.Microbial CAZy functional genes differed significantly among regions,with glycoside hydrolases(GH)and glycosyltransferases(GT)being the dominant groups,while key lignocellulose-degrading families showed region-specific enrichment patterns.Driving factor analysis indicated that soil organic carbon,sucrase activity,and soil physicochemical properties were the key factors shaping CAZy functional structures and straw decomposition processes,whereas the direct contribution of individual functional genes was relatively limited.In conclusion,the straw decomposition process is mainly regulated by spatial environmental background,while microbial functional genes undergo adaptive adjustments under given physicochemical conditions.[Conclusion]These findings provide a theoretical basis for the application and optimization of straw return technologies in black soil regions.

关键词

黑土区/秸秆颗粒化/微生境/CAZy功能基因

Key words

black soil region/straw pelletization/soil microenvironment/CAZy functional genes

分类

农业科技

引用本文复制引用

杨彦明,周祎,侯期任,吴诗唯,罗方,张传玲,席慧馨,李爱华..秸秆颗粒还田对黑土不同空间微生境与CAZy功能基因特征影响[J].沈阳农业大学学报,2026,57(2):37-47,11.

基金项目

内蒙古科技计划项目(2022YFDZ0018) （2022YFDZ0018）

内蒙古自治区直属高校基本科研业务费项目(BR230119) （BR230119）

内蒙古自然科学基金项目(2025LHMS03006) （2025LHMS03006）

沈阳农业大学学报

ISSN：1000-1700

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