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Journal Abstract Search

216 related items for PubMed ID: 33418154

  • 1. Source attributions of Cadmium contamination in rice grains by Cadmium isotope composition analysis: A field study.
    Yan Y, Sun Q, Yang J, Zhang X, Guo B.
    Ecotoxicol Environ Saf; 2021 Mar 01; 210():111865. PubMed ID: 33418154
    [Abstract] [Full Text] [Related]

  • 2. Cadmium isotope fractionation and gene expression evidence for tracking sources of Cd in grains during grain filling in a soil-rice system.
    Zhong S, Li X, Li F, Pan D, Liu T, Huang Y, Wang Q, Yin H, Huang F.
    Sci Total Environ; 2023 May 15; 873():162325. PubMed ID: 36813190
    [Abstract] [Full Text] [Related]

  • 3. Stable isotope fractionation of cadmium in the soil-rice-human continuum.
    Zhang SN, Gu Y, Zhu ZL, Hu SH, Kopittke PM, Zhao FJ, Wang P.
    Sci Total Environ; 2021 Mar 20; 761():143262. PubMed ID: 33218811
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  • 4. Effectiveness of simultaneous foliar application of Zn and Mn or P to reduce Cd concentration in rice grains: a field study.
    Lv G, Wang H, Xu C, Shuai H, Luo Z, Zhang Q, Zhu H, Wang S, Zhu Q, Zhang Y, Huang D.
    Environ Sci Pollut Res Int; 2019 Mar 20; 26(9):9305-9313. PubMed ID: 30719674
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  • 5. Cd isotope fractionation during tobacco combustion produces isotopic variation outside the range measured in dietary sources.
    Scott SR, Smith KE, Dahman C, Gorski PR, Adams SV, Shafer MM.
    Sci Total Environ; 2019 Oct 20; 688():600-608. PubMed ID: 31254826
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  • 6. Evaluation of zinc, cadmium and lead isotope fractionation during smelting and refining.
    Shiel AE, Weis D, Orians KJ.
    Sci Total Environ; 2010 May 01; 408(11):2357-68. PubMed ID: 20206962
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  • 7. Phytoavailability, translocation, and accompanying isotopic fractionation of cadmium in soil and rice plants in paddy fields.
    Dong Q, Xiao C, Cheng W, Yu H, Liu G, Liu Y, Guo Y, Liang Y, Shi J, Yin Y, Cai Y, Jiang G.
    J Hazard Mater; 2024 Sep 15; 477():135321. PubMed ID: 39068886
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  • 14. Identification of cadmium bioaccumulation in rice (Oryza sativa L.) by the soil-plant transfer model and species sensitivity distribution.
    Li K, Cao C, Ma Y, Su D, Li J.
    Sci Total Environ; 2019 Nov 20; 692():1022-1028. PubMed ID: 31539934
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  • 15. Foliar application with nano-silicon reduced cadmium accumulation in grains by inhibiting cadmium translocation in rice plants.
    Chen R, Zhang C, Zhao Y, Huang Y, Liu Z.
    Environ Sci Pollut Res Int; 2018 Jan 20; 25(3):2361-2368. PubMed ID: 29124638
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  • 16. Insights into site-specific influences of emission sources on accumulation of heavy metal(loid)s in soils by wheat grains.
    Xu J, Wang M, Zhong T, Zhao Z, Lu Y, Zhao X, Cai X.
    Environ Sci Pollut Res Int; 2022 Oct 20; 29(48):73131-73146. PubMed ID: 35622279
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  • 17. Cadmium contamination in a soil-rice system and the associated health risk: An addressing concern caused by barium mining.
    Lu Q, Xu Z, Xu X, Liu L, Liang L, Chen Z, Dong X, Li C, Wang Y, Qiu G.
    Ecotoxicol Environ Saf; 2019 Nov 15; 183():109590. PubMed ID: 31509933
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  • 19. Stable mercury isotope variation in rice plants (Oryza sativa L.) from the Wanshan mercury mining district, SW China.
    Yin R, Feng X, Meng B.
    Environ Sci Technol; 2013 Mar 05; 47(5):2238-45. PubMed ID: 23363238
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  • 20. Cadmium transfer in contaminated soil-rice systems: Insights from solid-state speciation analysis and stable isotope fractionation.
    Wiggenhauser M, Aucour AM, Bureau S, Campillo S, Telouk P, Romani M, Ma JF, Landrot G, Sarret G.
    Environ Pollut; 2021 Jan 15; 269():115934. PubMed ID: 33277064
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