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Journal Abstract Search

215 related items for PubMed ID: 25521412

  • 1. Translocation and biotransformation of CuO nanoparticles in rice (Oryza sativa L.) plants.
    Peng C, Duan D, Xu C, Chen Y, Sun L, Zhang H, Yuan X, Zheng L, Yang Y, Yang J, Zhen X, Chen Y, Shi J.
    Environ Pollut; 2015 Feb; 197():99-107. PubMed ID: 25521412
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  • 2. Iron Plaque: A Barrier Layer to the Uptake and Translocation of Copper Oxide Nanoparticles by Rice Plants.
    Peng C, Chen S, Shen C, He M, Zhang Y, Ye J, Liu J, Shi J.
    Environ Sci Technol; 2018 Nov 06; 52(21):12244-12254. PubMed ID: 30351042
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  • 4. Mechanism study of sulfur fertilization mediating copper translocation and biotransformation in rice (Oryza sativa L.) plants.
    Sun L, Yang J, Fang H, Xu C, Peng C, Huang H, Lu L, Duan D, Zhang X, Shi J.
    Environ Pollut; 2017 Jul 06; 226():426-434. PubMed ID: 28461082
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  • 7. Phytotoxicity and accumulation of copper oxide nanoparticles to the Cu-tolerant plant Elsholtzia splendens.
    Shi J, Peng C, Yang Y, Yang J, Zhang H, Yuan X, Chen Y, Hu T.
    Nanotoxicology; 2014 Mar 06; 8(2):179-88. PubMed ID: 23311584
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  • 8. Temporal Evolution of Copper Distribution and Speciation in Roots of Triticum aestivum Exposed to CuO, Cu(OH)2, and CuS Nanoparticles.
    Spielman-Sun E, Lombi E, Donner E, Avellan A, Etschmann B, Howard D, Lowry GV.
    Environ Sci Technol; 2018 Sep 04; 52(17):9777-9784. PubMed ID: 30078329
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  • 9. Synchrotron-based X-ray absorption near-edge spectroscopy imaging for laterally resolved speciation of selenium in fresh roots and leaves of wheat and rice.
    Wang P, Menzies NW, Lombi E, McKenna BA, James S, Tang C, Kopittke PM.
    J Exp Bot; 2015 Aug 04; 66(15):4795-806. PubMed ID: 26019258
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  • 11. The effect of CuO NPs on reactive oxygen species and cell cycle gene expression in roots of rice.
    Wang S, Liu H, Zhang Y, Xin H.
    Environ Toxicol Chem; 2015 Mar 04; 34(3):554-61. PubMed ID: 25475023
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  • 12. Distribution and speciation of copper in rice (Oryza sativa L.) from mining-impacted paddy soil: Implications for copper uptake mechanisms.
    Cui JL, Zhao YP, Lu YJ, Chan TS, Zhang LL, Tsang DCW, Li XD.
    Environ Int; 2019 May 04; 126():717-726. PubMed ID: 30878867
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  • 14. Bioavailability and translocation of metal oxide nanoparticles in the soil-rice plant system.
    Peng C, Tong H, Shen C, Sun L, Yuan P, He M, Shi J.
    Sci Total Environ; 2020 Apr 15; 713():136662. PubMed ID: 31958734
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  • 15. Weathering in soil increases nanoparticle CuO bioaccumulation within a terrestrial food chain.
    Servin AD, Pagano L, Castillo-Michel H, De la Torre-Roche R, Hawthorne J, Hernandez-Viezcas JA, Loredo-Portales R, Majumdar S, Gardea-Torresday J, Dhankher OP, White JC.
    Nanotoxicology; 2017 Feb 15; 11(1):98-111. PubMed ID: 28024451
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  • 16. Uptake, Distribution, and Transformation of CuO NPs in a Floating Plant Eichhornia crassipes and Related Stomatal Responses.
    Zhao J, Ren W, Dai Y, Liu L, Wang Z, Yu X, Zhang J, Wang X, Xing B.
    Environ Sci Technol; 2017 Jul 05; 51(13):7686-7695. PubMed ID: 28586199
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  • 17. Foliar uptake, biotransformation, and impact of CuO nanoparticles in Lactuca sativa L. var. ramosa Hort.
    Xiong T, Zhang T, Xian Y, Kang Z, Zhang S, Dumat C, Shahid M, Li S.
    Environ Geochem Health; 2021 Jan 05; 43(1):423-439. PubMed ID: 32990874
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  • 18. Influence of sulfur fertilization on CuO nanoparticles migration and transformation in soil pore water from the rice (Oryza sativa L.) rhizosphere.
    Sun L, Xue Y, Peng C, Xu C, Shi J.
    Environ Pollut; 2020 Feb 05; 257():113608. PubMed ID: 31761580
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