生物炭与植物根系的结合改善了土壤细菌对多环芳烃胁迫的适应性：来自土壤酶、微生物群落和代谢组学的见解

The combination of biochar and plant roots improves soil bacterial adaptation to PAH stress: Insights from soil enzymes, microbiome, and metabolome.

作者信息

Li Xiaona, Yao Shi, Bian Yongrong, Jiang Xin, Song Yang

机构信息

CAS Key Laboratory of Soil Environment and Pollution Remediation, Institute of Soil Science, Nanjing, 210008, China; University of the Chinese Academy of Sciences, Beijing, 100049, China.

出版信息

J Hazard Mater. 2020 Dec 5;400:123227. doi: 10.1016/j.jhazmat.2020.123227. Epub 2020 Jun 17.

DOI:10.1016/j.jhazmat.2020.123227

PMID:32585520

Abstract

Polycyclic aromatic hydrocarbon (PAH) contamination in agricultural soils poses serious stress to the soil microbiome. With the broad application of biochar, however, the co-effects of biochar and plant roots on the bacterial responses to PAH stress remain unclear. Here, the effects of biochar and the rhizosphere on bacterial community structure and functions were analyzed by coupling enzyme activity tests, high-throughput sequencing, and soil metabolomics. The contents of available nutrients and dissolved organic carbon, enzyme activities, and carbon metabolism functions were improved by biochar and plant roots. With the combined effects of biochar and plant roots, sucrose and starch metabolism was mainly impacted, and the soil metabolite diversity decreased. There was a strong co-occurrence network among soil properties, bacterial members, and metabolites in the biochar-amended and rhizosphere soils, favoring bacterial resistance to PAH stress, and consequently, PAH removal. In light of the above results, we suggest that biochar application can efficiently improve bacterial functions in rhizosphere soil, and our results facilitate the development of in situ remediation programs in soil contaminated with PAHs.

摘要

农业土壤中的多环芳烃（PAH）污染对土壤微生物群落构成严重压力。然而，随着生物炭的广泛应用，生物炭和植物根系对细菌应对PAH胁迫的共同影响仍不清楚。在此，通过结合酶活性测试、高通量测序和土壤代谢组学分析了生物炭和根际对细菌群落结构和功能的影响。生物炭和植物根系提高了有效养分和溶解有机碳的含量、酶活性以及碳代谢功能。在生物炭和植物根系的共同作用下，蔗糖和淀粉代谢受到主要影响，土壤代谢物多样性降低。在生物炭改良的根际土壤中，土壤性质、细菌成员和代谢物之间存在强大的共现网络，有利于细菌对PAH胁迫的抗性，从而促进PAH的去除。鉴于上述结果，我们建议施用生物炭可以有效改善根际土壤中的细菌功能，我们的研究结果有助于制定受PAHs污染土壤的原位修复方案。

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生物炭与植物根系的结合改善了土壤细菌对多环芳烃胁迫的适应性：来自土壤酶、微生物群落和代谢组学的见解

The combination of biochar and plant roots improves soil bacterial adaptation to PAH stress: Insights from soil enzymes, microbiome, and metabolome.

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