The role of plant-associated bacteria in the mobilization and phytoextraction of trace elements in contaminated soils
Angela Sessitsch,Melanie Kuffner,Petra Kidd,Jaco Vangronsveld,Walter W. Wenzel,Katharina Fallmann,Katharina Fallmann,Markus Puschenreiter +7 more
TLDR
The role of plant-associated bacteria to enhance trace element availability in the rhizosphere is reviewed and the kind of bacteria typically found in association with trace element – tolerating or – accumulating plants are reported and discussed to improve trace element uptake by plants and thus the efficiency and rate of phytoextraction.Abstract:
Phytoextraction makes use of trace element-accumulating plants that concentrate the pollutants in their tissues. Pollutants can be then removed by harvesting plants. The success of phytoextraction depends on trace element availability to the roots and the ability of the plant to intercept, take up, and accumulate trace elements in shoots. Current phytoextraction practises either employ hyperaccumulators or fast-growing high biomass plants; the phytoextraction process may be enhanced by soil amendments that increase trace element availability in the soil. This review will focus on the role of plant-associated bacteria to enhance trace element availability in the rhizosphere. We report on the kind of bacteria typically found in association with trace element – tolerating or – accumulating plants and discuss how they can contribute to improve trace element uptake by plants and thus the efficiency and rate of phytoextraction. This enhanced trace element uptake can be attributed to a microbial modification of the absorptive properties of the roots such as increasing the root length and surface area and numbers of root hairs, or by increasing the plant availability of trace elements in the rhizosphere and the subsequent translocation to shoots via beneficial effects on plant growth, trace element complexation and alleviation of phytotoxicity. An analysis of data from literature shows that effects of bacterial inoculation on phytoextraction efficiency are currently inconsistent. Some key processes in plant–bacteria interactions and colonization by inoculated strains still need to be unravelled more in detail to allow full-scale application of bacteria assisted phytoremediation of trace element contaminated soils.read more
Citations
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Removal of hexadecane by hydroponic root mats in partnership with alkane-degrading bacteria: bacterial augmentation enhances system’s performance
TL;DR: In this paper, a halophyte grass, Leptochloa fusca, was planted in the presence of three hydrocarbons-degrading bacteria, namely Acinetobacter sp. ACRH82, Bacillus sp. BRRH61, and Bacillus niabensis ACSI85.
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Influence of new agromining cropping systems on soil bacterial diversity and the physico-chemical characteristics of an ultramafic soil.
Ramez F. Saad,Ahmad Kobaissi,Guillaume Echevarria,Petra Kidd,Magdalena Calusinska,Xavier Goux,Emile Benizri +6 more
TL;DR: This study showed that these new cropping systems influenced both the bacterial diversity and the physico-chemical characteristics of an ultramafic soil and provides evidence that mineral fertilization can negatively impact bacterial communities and some of their functions linked to biogeochemical cycles.
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The role of auxins and auxin-producing bacteria in the tolerance and accumulation of cadmium by plants
Gisela Adelina Rolón-Cárdenas,Jackeline Lizzeta Arvizu-Gómez,Ruth Elena Soria-Guerra,Juan Ramiro Pacheco-Aguilar,Fulgencio Alatorre-Cobos,Alejandro Hernández-Morales +5 more
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Characterization of bacterial communities associated with Brassica napus L. growing on a Zn-contaminated soil and their effects on root growth
Blanca Montalbán,Sarah Croes,Nele Weyens,M. Carmen Lobo,Araceli Pérez-Sanz,Jaco Vangronsveld +5 more
TL;DR: This work aimed at isolating and characterizing the cultivable bacterial community associated with Brassica napus growing on a Zn-contaminated site, for selecting cultivable PGPB that might enhance biomass production and metal tolerance of energy crops.
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Mechanisms of water regime effects on uptake of cadmium and nitrate by two ecotypes of water spinach (Ipomoea aquatica Forsk.) in contaminated soil.
Lin Tang,Yasir Hamid,Afsheen Zehra,Zulfiqar Ali Sahito,Zhenli He,Muhammad Bilal Khan,Ying Feng,Xiaoe Yang +7 more
TL;DR: It is indicated that flooding treatments result in biochemical and microbiological changes in soil, especially in the rhizosphere and reduced the availability of Cd and nitrate to plants, thus decreasing their uptake by water spinach.
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