Use of plant growth-promoting bacteria to facilitate phytoremediation.

IF 2.7 Q3 MICROBIOLOGY AIMS Microbiology Pub Date : 2024-06-12 eCollection Date: 2024-01-01 DOI:10.3934/microbiol.2024021
Elisa Gamalero, Bernard R Glick
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Abstract

Here, phytoremediation studies of toxic metal and organic compounds using plants augmented with plant growth-promoting bacteria, published in the past few years, were summarized and reviewed. These studies complemented and extended the many earlier studies in this area of research. The studies summarized here employed a wide range of non-agricultural plants including various grasses indigenous to regions of the world. The plant growth-promoting bacteria used a range of different known mechanisms to promote plant growth in the presence of metallic and/or organic toxicants and thereby improve the phytoremediation ability of most plants. Both rhizosphere and endophyte PGPB strains have been found to be effective within various phytoremediation schemes. Consortia consisting of several PGPB were often more effective than individual PGPB in assisting phytoremediation in the presence of metallic and/or organic environmental contaminants.

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利用植物生长促进菌促进植物修复。
在此,我们总结并回顾了过去几年发表的利用添加了植物生长促进菌的植物对有毒金属和有机化合物进行植物修复的研究。这些研究补充并扩展了这一研究领域的许多早期研究。本文总结的研究采用了多种非农业植物,包括世界各地的各种本地草。植物生长促进菌利用一系列不同的已知机制,在存在金属和/或有机毒物的情况下促进植物生长,从而提高大多数植物的植物修复能力。在各种植物修复方案中,根瘤菌和内生型 PGPB 菌株都被认为是有效的。在协助植物修复金属和/或有机环境污染物方面,由多个 PGPB 组成的联合体往往比单个 PGPB 更有效。
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来源期刊
AIMS Microbiology
AIMS Microbiology MICROBIOLOGY-
CiteScore
7.00
自引率
2.10%
发文量
22
审稿时长
8 weeks
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