Journal ArticleDOI
Synergistic effects of plant growth-promoting Neorhizobium huautlense T1-17 and immobilizers on the growth and heavy metal accumulation of edible tissues of hot pepper
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TLDR
The results showed that T1-17 and the immobilizers alleviated the heavy metal toxicity and decreased the fruit heavy metal uptake of hot pepper and also showed the synergistic effects of T1 -17 andThe immobilizers on the growth and Cd and Pb accumulation of hot Pepper.About:
This article is published in Journal of Hazardous Materials.The article was published on 2016-07-15. It has received 64 citations till now. The article focuses on the topics: Pepper & Vermiculite.read more
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Cd immobilization and reduced tissue Cd accumulation of rice (Oryza sativa wuyun-23) in the presence of heavy metal-resistant bacteria
TL;DR: Two metal-resistant Bacillus megaterium H3 and Neorhizobium huautlense T1-17 were investigated for their immobilization of Cd in solution and tissue Cd accumulation of rice (Oryza sativa wuyun-23) in the Cd-contaminated soil to provide an effective synergistic bioremediation.
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Isolation, characterization, and selection of heavy metal-resistant and plant growth-promoting endophytic bacteria from root nodules of Robinia pseudoacacia in a Pb/Zn mining area.
TL;DR: Results indicate that inoculation with HZ76 or HZ6 relieved HM stress in the plants, depending on the type and concentration of HM in the treatment, as well as the microsymbiosis between HM-resistant rhizobia and R. pseudoacacia.
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Increased biomass and quality and reduced heavy metal accumulation of edible tissues of vegetables in the presence of Cd-tolerant and immobilizing Bacillus megaterium H3.
TL;DR: The results demonstrated the increased edible tissue biomass and quality, decreased Cd and Pb uptake of the edible tissues, and improved soil quality in the presence of strain H3 and suggested an effective bacterial-enhanced technique for decreased metal uptake of greens and improved vegetable and soil qualities in the metal-contaminated soils.
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Increased biomass and reduced rapeseed Cd accumulation of oilseed rape in the presence of Cd-immobilizing and polyamine-producing bacteria.
TL;DR: It is suggested that these strains reduced the available Cd and rapeseed Cd uptake by increasing the cell adsorption of Cd, abundance of ADPB, polyamine production, and pH in the rhizosphere soils.
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Heavy metal-immobilizing bacteria combined with calcium polypeptides reduced the uptake of Cd in wheat and shifted the rhizosphere bacterial communities.
TL;DR: The results showed that the heavy metal-immobilizing bacterium TJ6 combined with CPPs decreased the Cd content and increased the bacterial community diversity of wheat rhizosphere soil.
References
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Remediation of heavy metal(loid)s contaminated soils - To mobilize or to immobilize?
Nanthi Bolan,Nanthi Bolan,Anitha Kunhikrishnan,Ramya Thangarajan,Ramya Thangarajan,Jurate Kumpiene,Jin Hee Park,Tomoyuki Makino,M. B. Kirkham,Kirk G. Scheckel +9 more
TL;DR: The remediation of heavy metal(loid) contaminated soils through manipulating their bioavailability using a range of soil amendments will be presented.
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An inventory of heavy metals inputs to agricultural soils in England and Wales.
TL;DR: An inventory of heavy metal inputs to agricultural soils in England and Wales in 2000 is presented, accounting for major sources including atmospheric deposition, sewage sludge, livestock manures, inorganic fertilisers and lime, agrochemicals, irrigation water, industrial by-product 'wastes' and composts.
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Plant growth promoting rhizobacteria and endophytes accelerate phytoremediation of metalliferous soils
TL;DR: The role of plant growth promoting rhizo- and/or endophytic bacteria in accelerating phytoremediation derived benefits in extensive tables and elaborate schematic sketches is highlighted.
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A review of the use of composted municipal solid waste in agriculture
TL;DR: In this article, a review of relevant agricultural studies is presented as well as recommendations for improving MSW compost quality, which can be ensured with source separation and triage of MSW to be composted.
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Promotion of Plant Growth by Bacterial ACC Deaminase
Bernard R. Glick,Biljana Todorovic,Jennifer Czarny,Zhenyu Cheng,Jin Duan,Brendan J. McConkey +5 more
TL;DR: A review of the published work on the enzyme 1-aminocyclopropane-1-carboxylate (ACC) deaminase, with an emphasis on its biochemistry, protein structure, genes, and regulation.