生物炭和生物有机肥对盐碱地土壤根际微生物多样性的影响。

Effect of biochar and bioorganic fertilizer on the microbial diversity in the rhizosphere soil of in saline-alkaline soil.

作者信息

Gu Yin-Yu, Liang Xiao-Yan, Zhang Hai-Yang, Fu Rao, Li Meng, Chen Chuan-Jie

机构信息

Shandong Institute of Sericulture, Shandong Academy of Agricultural Sciences, Yantai, China.

出版信息

Front Microbiol. 2023 Jun 29;14:1190716. doi: 10.3389/fmicb.2023.1190716. eCollection 2023.

DOI:10.3389/fmicb.2023.1190716

PMID:37455751

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10339320/

Abstract

INTRODUCTION

Biochar and bioorganic fertilizer (BOF) application in agriculture has garnered increasing interest recently. However, the effects of biochar and BOF on rhizosphere soil microecology, especially in a region with saline-alkaline soil, remain largely unexplored.

METHODS

In this study, we performed Illumina-based 16S rRNA sequencing to investigate the effects of biochar with or without BOF addition, as well as at different addition rates and particles sizes, on the microecology of saline-alkaline rhizosphere soil.

RESULTS

In the field experiment, biochar and BOF application altered the rhizosphere soil microecology. Actinobacteriota, Proteobacteria, and Chloroflexi accounted for >60% of the total bacterial population in each treatment. In the different treatments, Actinobacteria and Alphaproteobacteria were the predominant classes; Micromonosporales and Vicinamibacterales were the dominant orders; norank_f__Geminicoccaceae and Micromonosporaceae were the most abundant families; and Micromonospora and norank_f_Geminicoccaceae were the predominant genera. Application of biochar with or without BOF decreased soil electrical conductivity (EC) by 7% -11.58% only at the depth of 10 cm below the surface, again, soil EC can be significantly reduced by an average of 4% at 10 cm depth soil after planting Sesbania cannabina. Soil organic carbon, organic matter, available potassium, and available phosphorus contents had significant effects on the soil bacterial community structure.

CONCLUSION

Co-application of biochar and BOF resulted in the greatest improvement of rhizosphere soil microecology, either by promoting plant growth or improving the nutrition and physicochemical properties of soil, followed by BOF alone and biochar alone. Additionally, higher application rate of biochar was better than lower application rate, and fine biochar had a stronger effect than coarse biochar. These results provide guidance for the development of new saline-alkaline soil remediation strategies.

摘要

引言

生物炭和生物有机肥在农业中的应用近来受到越来越多的关注。然而，生物炭和生物有机肥对根际土壤微生态的影响，尤其是在盐碱土地区，仍 largely 未被探索。

方法

在本研究中，我们进行了基于 Illumina 的 16S rRNA 测序，以研究添加或不添加生物有机肥以及不同添加速率和颗粒大小的生物炭对盐碱根际土壤微生态的影响。

结果

在田间试验中，生物炭和生物有机肥的施用改变了根际土壤微生态。放线菌门、变形菌门和绿弯菌门在各处理中占细菌总数的>60%。在不同处理中，放线菌纲和α-变形菌纲是主要类群；小单孢菌目和邻单胞菌目是优势目；未分类_f__双球菌科和小单孢菌科是最丰富的科；小单孢菌属和未分类_f_双球菌科是主要属。添加或不添加生物有机肥的生物炭施用仅在地表以下 10 厘米深度处使土壤电导率（EC）降低了 7% - 11.58%，同样，种植田菁后，在 10 厘米深度土壤处，土壤 EC 平均可显著降低 4%。土壤有机碳、有机质、速效钾和速效磷含量对土壤细菌群落结构有显著影响。

结论

生物炭和生物有机肥的共同施用通过促进植物生长或改善土壤营养和理化性质，对根际土壤微生态的改善效果最佳，其次是单独施用生物有机肥和单独施用生物炭。此外，较高的生物炭施用量比较低的施用量效果更好，细生物炭比粗生物炭的效果更强。这些结果为开发新的盐碱土修复策略提供了指导。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/27c7/10339320/e567bd4047a9/fmicb-14-1190716-g001.jpg

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生物炭和生物有机肥对盐碱地土壤根际微生物多样性的影响。

Effect of biochar and bioorganic fertilizer on the microbial diversity in the rhizosphere soil of in saline-alkaline soil.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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