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PUBMED FOR HANDHELDS

Journal Abstract Search


152 related items for PubMed ID: 34714461

  • 21.
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  • 22. Uptake of cadmium from an experimentally contaminated calcareous soil by arbuscular mycorrhizal maize (Zea mays L.).
    Chen BD, Liu Y, Shen H, Li XL, Christie P.
    Mycorrhiza; 2004 Dec; 14(6):347-54. PubMed ID: 14661105
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  • 23.
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  • 24. Decreased ZnO nanoparticle phytotoxicity to maize by arbuscular mycorrhizal fungus and organic phosphorus.
    Wang F, Jing X, Adams CA, Shi Z, Sun Y.
    Environ Sci Pollut Res Int; 2018 Aug; 25(24):23736-23747. PubMed ID: 29876848
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  • 25.
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  • 26. Effectiveness of autochthonous bacterium and mycorrhizal fungus on Trifolium growth, symbiotic development and soil enzymatic activities in Zn contaminated soil.
    Vivas A, Barea JM, Biró B, Azcón R.
    J Appl Microbiol; 2006 Mar; 100(3):587-98. PubMed ID: 16478498
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  • 29. Diversity and characterization of culturable bacterial endophytes from Zea mays and their potential as plant growth-promoting agents in metal-degraded soils.
    Pereira SI, Castro PM.
    Environ Sci Pollut Res Int; 2014 Dec; 21(24):14110-23. PubMed ID: 25053283
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  • 30. Effect of arbuscular mycorrhizal fungi in roots on antioxidant enzyme activity in leaves of Robinia pseudoacacia L. seedlings under elevated CO2 and Cd exposure.
    Wang L, Jia X, Zhao Y, Zhang C, Zhao J.
    Environ Pollut; 2022 Feb 01; 294():118652. PubMed ID: 34890743
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  • 31. Effect of cadmium on sorghum root colonization by glomeral fungi and its impact on total and easily extractable glomalin production.
    Gerami Z, Lakzian A, Hemati A, Amirifar A, Asgari Lajayer B, van Hullebusch ED.
    Environ Sci Pollut Res Int; 2021 Jul 01; 28(26):34570-34583. PubMed ID: 33651291
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  • 32. Alleviation of cadmium accumulation in maize (Zea mays L.) by foliar spray of zinc oxide nanoparticles and biochar to contaminated soil.
    Rizwan M, Ali S, Zia Ur Rehman M, Adrees M, Arshad M, Qayyum MF, Ali L, Hussain A, Chatha SAS, Imran M.
    Environ Pollut; 2019 May 01; 248():358-367. PubMed ID: 30818115
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  • 33. Dose optimization of silicon for boosting arbuscular mycorrhizal fungi colonization and cadmium stress mitigation in maize (Zea mays L.).
    Zia UU, Niazi AR, Ahmad Z, Alharby HF, Waraich EA, Abbasi A, Iqbal MA, Ahmed S, Hina S.
    Environ Sci Pollut Res Int; 2023 May 01; 30(25):67071-67086. PubMed ID: 37103705
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  • 34.
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  • 35. Synergistic effect of silicon and arbuscular mycorrhizal fungi reduces cadmium accumulation by regulating hormonal transduction and lignin accumulation in maize.
    Khan SR, Ahmad Z, Khan Z, Khan U, Asad M, Shah T.
    Chemosphere; 2024 Jan 01; 346():140507. PubMed ID: 38303379
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  • 36. Symbiotic efficiency of autochthonous arbuscular mycorrhizal fungus (G. mosseae) and Brevibacillus sp. isolated from cadmium polluted soil under increasing cadmium levels.
    Vivas A, Vörös I, Biró B, Campos E, Barea JM, Azcón R.
    Environ Pollut; 2003 Jan 01; 126(2):179-89. PubMed ID: 12927489
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  • 37. [Effects of Arbuscular Mycorrhizal Fungi on the Growth and Uptake of La and Pb by Maize Grown in La and Pb-Contaminated Soil].
    Chang Q, Guo W, Pan L, Wang QF, Zhou XN, Yang L, Li E.
    Huan Jing Ke Xue; 2017 Sep 08; 38(9):3915-3926. PubMed ID: 29965275
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  • 38. Effects of arbuscular mycorrhizal fungi on the growth and toxic element uptake of Phragmites australis (Cav.) Trin. ex Steud under zinc/cadmium stress.
    You Y, Wang L, Ju C, Wang G, Ma F, Wang Y, Yang D.
    Ecotoxicol Environ Saf; 2021 Apr 15; 213():112023. PubMed ID: 33578096
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  • 39. Interactions between arbuscular mycorrhizae and heavy metals under sand culture experiment.
    Liao JP, Lin XG, Cao ZH, Shi YQ, Wong MH.
    Chemosphere; 2003 Feb 15; 50(6):847-53. PubMed ID: 12688501
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  • 40. Mine land valorization through energy maize production enhanced by the application of plant growth-promoting rhizobacteria and arbuscular mycorrhizal fungi.
    Moreira H, Pereira SI, Marques AP, Rangel AO, Castro PM.
    Environ Sci Pollut Res Int; 2016 Apr 15; 23(7):6940-50. PubMed ID: 26676544
    [Abstract] [Full Text] [Related]


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