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W2751534188 endingPage "11316" @default.
W2751534188 startingPage "11308" @default.
W2751534188 abstract "Nanoparticles can be absorbed by plants, but their impacts on phytoremediation are not yet well understood. This study was carried out to determine the impacts of starch stabilized nanoscale zerovalent iron (S-nZVI) on the cadmium (Cd) accumulation and the oxidative stress in Boehmeria nivea (L.) Gaudich (ramie). Plants were cultivated in Cd-contaminated sediments amended with S-nZVI at 100, 500, and 1000 mg/kg, respectively. Results showed that S-nZVI promoted Cd accumulation in ramie seedlings. The subcellular distribution result showed that Cd content in cell wall of plants reduced, and its concentration in cell organelle and soluble fractions increased at S-nZVI treatments, indicating the promotion of Cd entering plant cells by S-nZVI. In addition, the 100 mg/kg S-nZVI alleviated the oxidative damage to ramie under Cd-stress, while 500 and 1000 mg/kg S-nZVI inhibited plant growth and aggravated the oxidative damage to plants. These findings demonstrate that nanoparticles at low concentration can improve the efficiency of phytoremediation. This study herein develops a promising novel technique by the combined use of nanotechnology and phytoremediation in the remediation of heavy metal contaminated sites." @default.
W2751534188 created "2017-09-15" @default.
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W2751534188 date "2017-09-12" @default.
W2751534188 modified "2023-10-16" @default.
W2751534188 title "Stabilized Nanoscale Zerovalent Iron Mediated Cadmium Accumulation and Oxidative Damage of <i>Boehmeria nivea</i> (L.) Gaudich Cultivated in Cadmium Contaminated Sediments" @default.
W2751534188 cites W1066524152 @default.
W2751534188 cites W1447095829 @default.
W2751534188 cites W1964747311 @default.
W2751534188 cites W1965032851 @default.
W2751534188 cites W1968930468 @default.
W2751534188 cites W1978347760 @default.
W2751534188 cites W1993193599 @default.
W2751534188 cites W1995354541 @default.
W2751534188 cites W2002483749 @default.
W2751534188 cites W2003889588 @default.
W2751534188 cites W2015402217 @default.
W2751534188 cites W2018942878 @default.
W2751534188 cites W2024602981 @default.
W2751534188 cites W2027674653 @default.
W2751534188 cites W2031840995 @default.
W2751534188 cites W2037417301 @default.
W2751534188 cites W2040629642 @default.
W2751534188 cites W2042829619 @default.
W2751534188 cites W2048213908 @default.
W2751534188 cites W2049489052 @default.
W2751534188 cites W2055239715 @default.
W2751534188 cites W2057042088 @default.
W2751534188 cites W2060227609 @default.
W2751534188 cites W2065139830 @default.
W2751534188 cites W2066920152 @default.
W2751534188 cites W2069956075 @default.
W2751534188 cites W2070904979 @default.
W2751534188 cites W2075876645 @default.
W2751534188 cites W2081679685 @default.
W2751534188 cites W2087345758 @default.
W2751534188 cites W2094614497 @default.
W2751534188 cites W2095452719 @default.
W2751534188 cites W2118744807 @default.
W2751534188 cites W2131171318 @default.
W2751534188 cites W2135385114 @default.
W2751534188 cites W2137184265 @default.
W2751534188 cites W2139328007 @default.
W2751534188 cites W2140665078 @default.
W2751534188 cites W2143687691 @default.
W2751534188 cites W2159827101 @default.
W2751534188 cites W2188259645 @default.
W2751534188 cites W2189453371 @default.
W2751534188 cites W2261449629 @default.
W2751534188 cites W2262854096 @default.
W2751534188 cites W2267523760 @default.
W2751534188 cites W2290109653 @default.
W2751534188 cites W2295442453 @default.
W2751534188 cites W2295893810 @default.
W2751534188 cites W2319558809 @default.
W2751534188 cites W2320949141 @default.
W2751534188 cites W2322969122 @default.
W2751534188 cites W2330849919 @default.
W2751534188 cites W2333827197 @default.
W2751534188 cites W2472231696 @default.
W2751534188 cites W2509591931 @default.
W2751534188 cites W2510863099 @default.
W2751534188 cites W2512197722 @default.
W2751534188 cites W2525718102 @default.
W2751534188 cites W2556895248 @default.
W2751534188 cites W2560784481 @default.
W2751534188 cites W2566114009 @default.
W2751534188 cites W2582374919 @default.
W2751534188 cites W2588203367 @default.
W2751534188 cites W2602874887 @default.
W2751534188 cites W2609726800 @default.
W2751534188 cites W2613151501 @default.
W2751534188 cites W606706877 @default.
W2751534188 cites W980867832 @default.
W2751534188 doi "https://doi.org/10.1021/acs.est.7b03164" @default.
W2751534188 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28850225" @default.
W2751534188 hasPublicationYear "2017" @default.
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