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植物促生菌;荧光假单胞菌 UW4 接种对选定的单种和混合植物物种修复多环芳烃和铅污染土壤的效果。

Effect of plant growth promoting bacterium; Pseudomonas putida UW4 inoculation on phytoremediation efficacy of monoculture and mixed culture of selected plant species for PAH and lead spiked soils.

机构信息

a School of Geography, Earth and Environmental Sciences, College of Life and Environmental Sciences , University of Birmingham , Birmingham , UK.

出版信息

Int J Phytoremediation. 2019;21(3):200-208. doi: 10.1080/15226514.2018.1501334. Epub 2019 Jan 18.

DOI:10.1080/15226514.2018.1501334
PMID:30656952
Abstract

Plant growth promoting bacteria (PGPB) enhanced phytoremediation (PEP) is an attractive remedial strategy for the remediation of polycyclic aromatic hydrocarbon (PAH) and heavy metal (HM) contaminated sites. The effect of PGPB; Pseudomonas putida UW4 inoculation on the phytoremediation efficiency of Medicago sativa, Festuca arundinacea, Lolium perenne, and mixed plants (L. perenne and F. arundinacea) was assessed. This involved two contaminant treatments; "PAH" (phenanthrene; 300 mg·kg, fluoranthene; 200 mg·kg, and benzo[a]pyrene; 5 mg·kg) and "PAH + HM" ('PAH' treatments +100 mg of Pb/kg). PGPB inoculation significantly enhanced root biomass yield of F. arundinacea in PAH treatment, and the mixed plant shoot biomass and L. perenne root biomass yields of the PAH + HM treatment. PGPB significantly enhanced dissipation of phenanthrene and fluoranthene for M. sativa-PAH + PGPB treatment and fluoranthene for F. arundinacea-PAH + HM + PGPB treatment. In others, PGPB inoculation either had no impact or inhibited PAH dissipation. PAH dissipation for the single and mixed plant treatments with PGPB inoculation were not different. The efficiency of PEP is dependent on different factors such as PGPB inoculum biomass, plant species, plant-microbe specificity and type of contaminants. Exploiting PEP technology would require proper understanding of plant tolerance and growth promoting mechanisms, and rhizosphere activities.

摘要

植物促生菌(PGPB)增强的植物修复(PEP)是一种有吸引力的修复策略,可用于修复多环芳烃(PAH)和重金属(HM)污染场地。评估了植物促生菌 Pseudomonas putida UW4 接种对紫花苜蓿、高羊茅、黑麦草和混合植物(黑麦草和高羊茅)的植物修复效率的影响。这涉及两种污染物处理;“PAH”(菲;300mg·kg、荧蒽;200mg·kg 和苯并[a]芘;5mg·kg)和“PAH+HM”(“PAH”处理+100mg·kg 的 Pb/kg)。PGPB 接种显著提高了高羊茅在 PAH 处理中的根生物量产量,以及混合植物地上部分生物量和黑麦草根生物量产量在 PAH+HM 处理中。PGPB 显著促进了 M. sativa-PAH+PGPB 处理中菲和荧蒽的消解,以及 F. arundinacea-PAH+HM+PGPB 处理中荧蒽的消解。在其他处理中,PGPB 接种要么没有影响,要么抑制了 PAH 的消解。接种 PGPB 的单种和混合植物处理的 PAH 消解没有差异。PEP 的效率取决于不同的因素,如 PGPB 接种生物量、植物种类、植物-微生物特异性和污染物类型。利用 PEP 技术需要对植物的耐受性和生长促进机制以及根际活动有适当的了解。

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