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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Metal-tolerant endophytic bacteria associated with Silene vulgaris support the Cd and Zn phytoextraction in non-host plants.
TL;DR: The plant growth-promoting features of the isolates combined with their resistance to heavy metals and high survival in soil after inoculation make these strains good candidates for the promotion of plant growth and increased phytoremediation efficiency.
Journal ArticleDOI
Combined use of companion planting and PGPR for the assisted phytoextraction of trace metals (Zn, Pb, Cd)
Agnieszka Konkolewska,Aneta Piechalak,Liliana Ciszewska,Nina Antos-Krzeminska,Tomasz Skrzypczak,Anetta Hanć,Krzysztof Sitko,Eugeniusz Małkowski,Danuta Barałkiewicz,Arleta Małecka +9 more
TL;DR: Results show that companion planting and inoculation with rhizobacteria can increase the efficiency of metal phytoextraction, mainly by increasing the yield of dry biomass and the survival rate of plants grown on contaminated soil.
Journal ArticleDOI
The limits of lead (Pb) phytoextraction and possibilities of phytostabilization in contaminated soil: a critical review.
Sara Perl Egendorf,Sara Perl Egendorf,Peter M. Groffman,Peter M. Groffman,Gerry Moore,Zhongqi Cheng,Zhongqi Cheng +6 more
TL;DR: It is suggested that Pb phytoextraction is not a viable remediation option, but Pbphytostabilization, however, may be an effective remediation tool in a variety of settings.
Journal ArticleDOI
The effects of endophytic bacterium SaMR12 on Sedum alfredii Hance metal ion uptake and the expression of three transporter family genes after cadmium exposure
Fengshan Pan,Sha Luo,Jing Shen,Qiong Wang,Jiayuan Ye,Qian Meng,Yingjie Wu,Bao Chen,Xuerui Cao,Xiaoe Yang,Ying Feng +10 more
TL;DR: The results indicated that SaMR12 can elevate essential metal ion uptake and regulate the expression of transport genes to promote plant growth and enhance Cd tolerance and uptake to improve Cd accumulation up to 118–130%.
Journal ArticleDOI
Translocation of heavy metals in medicinally important herbal plants growing on complex organometallic sludge of sugarcane molasses-based distillery waste
TL;DR: Achyranthus aspera, Amaranthus viridis, Basella alba, Sesbania bispinosa, Pedalium murex, and Momordica doica were found as root accumulators for Mn, Fe, and Ni as discussed by the authors.
References
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