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W131365587 endingPage "237" @default.
W131365587 startingPage "213" @default.
W131365587 abstract "Brassicaceae are scattered all over the world, where they exclusively grow on serpentine rocks in Western Australia, New Zealand, South Africa, Japan, Philippines, Brazil, Portugal, Italy, Turkey, Cuba, eastern Canada, and western north America. Although serpentine rocks cover only less than 1% of the earth’s surface their worldwide distribution has recently attracted many researchers in exploring their distinctive potential for phytoremediation plant communities, mainly members of Brassicaceae plant family inhabiting on serpentine rocks of these countries. On the other hand, the majority of Brassicaceae plant family are slow-growing plants producing little biomass and their use for phytoextraction purposes may not be practical, especially when bioavailable metal concentration is high in the contaminated conditions. Therefore, recently emerging practices in the field of phytoremediation have pointed out various focuses such as the utility of high-biomass crops such as maize, peas, oats and Indian mustard and associated soil practices including application of synthetic chelators such as ethylenediaminetetraacetic acid and nitrilotriacetate and elemental sulphur to enhance metal uptake by these plants. These approaches may meet the conditions required for the phytoremediation. However, one of the most critical components of phytoextraction process is the bioavailability of heavy metals meaning the portion of the metals that is available for absorption into living organisms such as plants. It has been known that various plant growth-promoting rhizobacteria (PGPR) associated with plant roots may provide some beneficial effects on plant growth and nutrition through a series of well known mechanisms, namely, nitrogen fixation, production of phytohormones and siderophores, and transformation of nutrients once they are either applied to seeds or incorporated into the soil. Similarly, heavy metal mobility and availability can substantially be driven by PGPR populations through their release of chelating agents, acidification, and phosphate solubilization in rhizosphere. Miscellaneous PGPR were also shown to tolerate heavy metals in different ways including the mechanisms of exclusion, active removal, biosorption, precipitation, and extra- or intracellular bioaccumulation. Since these processes may affect the solubility and the bioavailability of heavy metals to the plant and hence modifying their toxic effects, interactions between hyperaccumulator plants such as Brassicaceae spp., and metal tolerant or resistant PGPR are considered to have an increasing biotechnological potential in the remediation of anthropogenically polluted soils. Present chapter/review considers the role of PGPR on soil-heavy metal-plant interactions and more specifically bioaccumulation of toxic metals by Brassicaceae plant family." @default.
W131365587 created "2016-06-24" @default.
W131365587 creator A5029416336 @default.
W131365587 creator A5053665611 @default.
W131365587 date "2012-01-01" @default.
W131365587 modified "2023-09-23" @default.
W131365587 title "The Role of Plant Growth-Promoting Rhizosphere Bacteria in Toxic Metal Extraction by Brassica spp." @default.
W131365587 cites W1009318306 @default.
W131365587 cites W1481506363 @default.
W131365587 cites W1541820241 @default.
W131365587 cites W1563297979 @default.
W131365587 cites W1580220522 @default.
W131365587 cites W1958028821 @default.
W131365587 cites W1967865234 @default.
W131365587 cites W1967922548 @default.
W131365587 cites W1968220175 @default.
W131365587 cites W1968409101 @default.
W131365587 cites W1968935190 @default.
W131365587 cites W1971059297 @default.
W131365587 cites W1971866469 @default.
W131365587 cites W1971975890 @default.
W131365587 cites W1972221391 @default.
W131365587 cites W1974144717 @default.
W131365587 cites W1975415243 @default.
W131365587 cites W1981201587 @default.
W131365587 cites W1981478811 @default.
W131365587 cites W1981662968 @default.
W131365587 cites W1982479403 @default.
W131365587 cites W1983390251 @default.
W131365587 cites W1983776087 @default.
W131365587 cites W1986874145 @default.
W131365587 cites W1989002233 @default.
W131365587 cites W1989069377 @default.
W131365587 cites W1994181972 @default.
W131365587 cites W1994662344 @default.
W131365587 cites W1995354541 @default.
W131365587 cites W1995487215 @default.
W131365587 cites W1996654031 @default.
W131365587 cites W1998305069 @default.
W131365587 cites W1999279064 @default.
W131365587 cites W2000563742 @default.
W131365587 cites W2003157293 @default.
W131365587 cites W2008527902 @default.
W131365587 cites W2008635388 @default.
W131365587 cites W2009286775 @default.
W131365587 cites W2011266412 @default.
W131365587 cites W2011865613 @default.
W131365587 cites W2012942254 @default.
W131365587 cites W2013440701 @default.
W131365587 cites W2015684195 @default.
W131365587 cites W2015979413 @default.
W131365587 cites W2017215529 @default.
W131365587 cites W2019322002 @default.
W131365587 cites W2020385856 @default.
W131365587 cites W2020873454 @default.
W131365587 cites W2021173217 @default.
W131365587 cites W2021458592 @default.
W131365587 cites W2021658260 @default.
W131365587 cites W2021835886 @default.
W131365587 cites W2022144365 @default.
W131365587 cites W2022426147 @default.
W131365587 cites W2022442306 @default.
W131365587 cites W2022742799 @default.
W131365587 cites W2023054478 @default.
W131365587 cites W2024262955 @default.
W131365587 cites W2026607019 @default.
W131365587 cites W2030109375 @default.
W131365587 cites W2031335417 @default.
W131365587 cites W2036664775 @default.
W131365587 cites W2037117929 @default.
W131365587 cites W2039683840 @default.
W131365587 cites W2040376582 @default.
W131365587 cites W2040919185 @default.
W131365587 cites W2042511523 @default.
W131365587 cites W2042948260 @default.
W131365587 cites W2044190127 @default.
W131365587 cites W2044638750 @default.
W131365587 cites W2046120598 @default.
W131365587 cites W2046170071 @default.
W131365587 cites W2047780119 @default.
W131365587 cites W2050416931 @default.
W131365587 cites W2052288053 @default.
W131365587 cites W2054628958 @default.
W131365587 cites W2058171621 @default.
W131365587 cites W2061503988 @default.
W131365587 cites W2062478242 @default.
W131365587 cites W2062535105 @default.
W131365587 cites W2065894637 @default.
W131365587 cites W2066222191 @default.
W131365587 cites W2066920866 @default.
W131365587 cites W2067447719 @default.
W131365587 cites W2067731264 @default.
W131365587 cites W2067765008 @default.
W131365587 cites W2067838234 @default.
W131365587 cites W2068173223 @default.
W131365587 cites W2068740659 @default.
W131365587 cites W2070524232 @default.
W131365587 cites W2070818521 @default.