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Journal Abstract Search

221 related items for PubMed ID: 29020458

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  • 3. Insights into the tolerance and phytoremediation potential of Coronopus didymus L. (Sm) grown under zinc stress.
    Sidhu GPS, Bali AS, Singh HP, Batish DR, Kohli RK.
    Chemosphere; 2020 Apr; 244():125350. PubMed ID: 31830642
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  • 4. Appraising the role of environment friendly chelants in alleviating lead by Coronopus didymus from Pb-contaminated soils.
    Sidhu GPS, Singh HP, Batish DR, Kohli RK.
    Chemosphere; 2017 Sep; 182():129-136. PubMed ID: 28494356
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  • 5. Ethylenediamine disuccinic acid enhanced phytoextraction of nickel from contaminated soils using Coronopus didymus (L.) Sm.
    Sidhu GPS, Bali AS, Singh HP, Batish DR, Kohli RK.
    Chemosphere; 2018 Aug; 205():234-243. PubMed ID: 29702343
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  • 7. Microbe-EDTA mediated approach in the phytoremediation of lead-contaminated soils using maize (Zea mays L.) plants.
    Menhas S, Hayat K, Niazi NK, Zhou P, Amna, Bundschuh J, Naeem M, Munis MFH, Yang X, Chaudhary HJ.
    Int J Phytoremediation; 2021 Aug; 23(6):585-596. PubMed ID: 33166474
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  • 8. Effect of lead on oxidative status, antioxidative response and metal accumulation in Coronopus didymus.
    Sidhu GPS, Singh HP, Batish DR, Kohli RK.
    Plant Physiol Biochem; 2016 Aug; 105():290-296. PubMed ID: 27214085
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  • 10. Chinese sapindaceous tree species (Sapindus mukorosii) exhibits lead tolerance and long-term phytoremediation potential for moderately contaminated soils.
    Sahito ZA, Zehra A, Yu S, Chen S, He Z, Yang X.
    Chemosphere; 2023 Oct; 338():139376. PubMed ID: 37437621
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  • 12. Effects of lead and cadmium on photosynthesis in Amaranthus spinosus and assessment of phytoremediation potential.
    Huang Y, Xi Y, Gan L, Johnson D, Wu Y, Ren D, Liu H.
    Int J Phytoremediation; 2019 Oct; 21(10):1041-1049. PubMed ID: 31020865
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  • 13. Evaluation of Furcraea foetida (L.)Haw. for phytoremediation of cadmium contaminated soils.
    Ramana S, Tripathi AK, Kumar A, Dey P, Saha JK, Patra AK.
    Environ Sci Pollut Res Int; 2021 Mar; 28(11):14177-14181. PubMed ID: 33491145
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  • 15. Evaluation of three ornamental plants for phytoremediation of Pb-contamined soil.
    Cui S, Zhang T, Zhao S, Li P, Zhou Q, Zhang Q, Han Q.
    Int J Phytoremediation; 2013 Mar; 15(4):299-306. PubMed ID: 23487996
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  • 16. Cadmium and lead differentially affect growth, physiology, and metal accumulation in guar (Cyamopsis tetragonoloba L.) genotypes.
    Sanaei S, Sadeghinia M, Meftahizade H, Ardakani AF, Ghorbanpour M.
    Environ Sci Pollut Res Int; 2022 Jan; 29(3):4180-4192. PubMed ID: 34402017
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  • 17. Lead-induced modification of growth and yield of Linum usitatissimum L. and its soil remediation potential.
    Khan A, Khan AA, Irfan M, Sayeed Akhtar M, Hasan SA.
    Int J Phytoremediation; 2023 Jan; 25(8):1067-1076. PubMed ID: 36178175
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  • 18. Cysteine-β-cyclodextrin enhanced phytoremediation of soil co-contaminated with phenanthrene and lead.
    Wang G, Wang Y, Hu S, Deng N, Wu F.
    Environ Sci Pollut Res Int; 2015 Jul; 22(13):10107-15. PubMed ID: 25687612
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  • 19. Capability of Secale montanum trusted for phytoremediation of lead and cadmium in soils amended with nano-silica and municipal solid waste compost.
    Moameri M, Abbasi Khalaki M.
    Environ Sci Pollut Res Int; 2019 Aug; 26(24):24315-24322. PubMed ID: 29134519
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  • 20. Ethylenediaminedisuccinic acid (EDDS) enhances phytoextraction of lead by vetiver grass from contaminated residential soils in a panel study in the field.
    Attinti R, Barrett KR, Datta R, Sarkar D.
    Environ Pollut; 2017 Jun; 225():524-533. PubMed ID: 28318794
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