期刊
JOURNAL OF HAZARDOUS MATERIALS
卷 415, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.jhazmat.2021.125756
关键词
Cucumber; Klebsiella; Metabolite; p-Hydroxybenzoic acid; Rhizospheric bacterial community; Transcriptome
资金
- National Key Research and Development Program of China [2017YFD0200804]
The study revealed that the application of PHBA-degrading bacteria strain P620 significantly mitigated cucumber autotoxicity stress caused by PHBA accumulation in soil, promoting plant growth, improving soil environment, and activating enzyme activity in leaves.
Accumulation of p-hydroxybenzoic acid (PHBA) in soil causes autotoxicity stress in cucumber. When the stress is mitigated by PHBA-degrading bacteria, plant metabolites have not been detected. To explore mechanisms underlining the mitigation, plant metabolites have not been combined with rhizospheric microbes, antioxidant and soil enzymes. In this study, a strain P620 of Klebsiella decomposed PHBA to acetyl CoA. Cucumber was sown into soil supplemented with P620 and/or PHBA. After addition with P620, P620 colonization and the enriched bacterial genera were observed in rhizosphere. Compared to PHBA stress alone, the combination of P620 application and PHBA stress improved plant growth, decreased PHBA concentration in soil, and increased the activities of five soil enzymes and eight antioxidant enzymes in leaves. Metabolomic and transcriptomic analysis highlighted that P620 application decreased the intensities of MAG(18:3) isomer 4, MAG(18:3) isomer 2, lysoPC 18:3 (2n isomer), 2 '-deoxyadenosine-5 '-monophosphate, pyridoxine, and glucarate O-phosphoric acid in PHBAstressed leaves and down-regulated the expression of genes related to these metabolites. We propose a mechanism that P620 application alters microbial communities in PHBA-contaminated soil. Thus, the application reduces PHBA concentration in soil, activates antioxidant and soil enzymes, and also influences metabolites in leaves by affecting plant transcriptome, mitigating PHBA stress in cucumber.
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