Z
Zhaojin Chen
Researcher at Nanjing Agricultural University
Publications - 20
Citations - 978
Zhaojin Chen is an academic researcher from Nanjing Agricultural University. The author has contributed to research in topics: Rhizosphere & Medicine. The author has an hindex of 8, co-authored 14 publications receiving 727 citations.
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Genetic diversity and characterization of heavy metal-resistant-endophytic bacteria from two copper-tolerant plant species on copper mine wasteland.
TL;DR: In experiments involving rape plants grown in vermiculite containing 4 mg kg(-1) of Cu, inoculation with the isolates was found to increase the dry weights of roots and above-ground tissues and increase inabove-ground tissue Cu content varied from 63% to 125% in inoculated-rape plants cultivated in Cu-contaminated substrate compared to the uninoculated control.
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Characterization of ACC deaminase-producing endophytic bacteria isolated from copper-tolerant plants and their potential in promoting the growth and copper accumulation of Brassica napus.
TL;DR: The results show that metal-resistant and plant growth promoting endophytic bacteria play an important role in plant growth and Cu uptake which may provide a newendophytic bacterial-assisted phytoremediation of Cu-contaminated environment.
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Increased cadmium and lead uptake of a cadmium hyperaccumulator tomato by cadmium-resistant bacteria
TL;DR: Results show that the bacteria could be exploited for bacteria enhanced-phytoextraction of Cd- and Pb-polluted soils.
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Characterization of lead-resistant and ACC deaminase-producing endophytic bacteria and their potential in promoting lead accumulation of rape.
TL;DR: The seven Pb-resistant and ACC deaminase-producing endophytic bacterial isolates were found to exhibit different multiple heavy metal resistance characteristics and to show different levels of ACCDeaminase activity.
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Promotion of growth and Cu accumulation of bio-energy crop (Zea mays) by bacteria: implications for energy plant biomass production and phytoremediation.
TL;DR: The results suggest that the metal-resistant and plant growth-promoting bacteria may be exploited for promoting the maize (energy crop) biomass production and Cu phytoremediation in a natural highly Cu-contaminated soil.