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115 related items for PubMed ID: 36603641

  • 1. Behind the plant-bacteria system: The role of zucchini and its secondary metabolite in shaping functional microbial diversity in MCPA-contaminated soil.
    Mierzejewska E, Tołoczko W, Urbaniak M.
    Sci Total Environ; 2023 Apr 01; 867():161312. PubMed ID: 36603641
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  • 2. The effects of syringic acid on the properties of MCPA-contaminated soil and the growth of two cucurbit species.
    Mierzejewska E, Tołoczko W, Urbaniak M.
    Int J Phytoremediation; 2022 Apr 01; 24(2):205-214. PubMed ID: 34126809
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  • 3. The Effect of Syringic Acid and Phenoxy Herbicide 4-chloro-2-methylphenoxyacetic acid (MCPA) on Soil, Rhizosphere, and Plant Endosphere Microbiome.
    Mierzejewska E, Urbaniak M, Zagibajło K, Vangronsveld J, Thijs S.
    Front Plant Sci; 2022 Apr 01; 13():882228. PubMed ID: 35712561
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  • 4. Spatial variation in 2-methyl-4-chlorophenoxyacetic acid mineralization and sorption in a sandy soil at field level.
    Fredslund L, Vinther FP, Brinch UC, Elsgaard L, Rosenberg P, Jacobsen CS.
    J Environ Qual; 2008 Apr 01; 37(5):1918-28. PubMed ID: 18689753
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  • 5. Plant litter enhances degradation of the herbicide MCPA and increases formation of biogenic non-extractable residues in soil.
    Nowak KM, Miltner A, Poll C, Kandeler E, Streck T, Pagel H.
    Environ Int; 2020 Sep 01; 142():105867. PubMed ID: 32585504
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  • 6. Impact of wheat straw biochar addition to soil on the sorption, leaching, dissipation of the herbicide (4-chloro-2-methylphenoxy)acetic acid and the growth of sunflower (Helianthus annuus L.).
    Tatarková V, Hiller E, Vaculík M.
    Ecotoxicol Environ Saf; 2013 Jun 01; 92():215-21. PubMed ID: 23474069
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  • 7. The efficient persistence and migration of Cupriavidus gilardii T1 contribute to the removal of MCPA in laboratory and field soils.
    Pan D, Xu Y, Ni Y, Zhang H, Hua R, Wu X.
    Environ Pollut; 2022 Jul 01; 304():119220. PubMed ID: 35358633
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  • 9. Evidence for the importance of litter as a co-substrate for MCPA dissipation in an agricultural soil.
    Saleh O, Pagel H, Enowashu E, Devers M, Martin-Laurent F, Streck T, Kandeler E, Poll C.
    Environ Sci Pollut Res Int; 2016 Mar 01; 23(5):4164-75. PubMed ID: 25943518
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  • 10. Influence of frozen storage on herbicide degradation capacity in surface and subsurface sandy soils.
    Mortensen SK, Jacobsen CS.
    Environ Sci Technol; 2004 Dec 15; 38(24):6625-32. PubMed ID: 15669321
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  • 12. Comparative sorption and leaching study of the herbicides fluometuron and 4-chloro-2-methylphenoxyacetic acid (MCPA) in a soil amended with biochars and other sorbents.
    Cabrera A, Cox L, Spokas KA, Celis R, Hermosín MC, Cornejo J, Koskinen WC.
    J Agric Food Chem; 2011 Dec 14; 59(23):12550-60. PubMed ID: 22023336
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  • 13. Effects of soil amendment with PCB-contaminated sediment on the growth of two cucurbit species.
    Urbaniak M, Lee S, Takazawa M, Mierzejewska E, Baran A, Kannan K.
    Environ Sci Pollut Res Int; 2020 Mar 14; 27(9):8872-8884. PubMed ID: 31686332
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  • 14. Study of MCPA and MCPP herbicides mobility in soils from North-West Croatia as affected by presence of fertilizers.
    Horvat AJ, Kastelan-Macan M, Petrović M, Barbarić Z.
    J Environ Sci Health B; 2003 May 14; 38(3):305-16. PubMed ID: 12716048
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  • 16. Succession of bacterial and fungal 4-chloro-2-methylphenoxyacetic acid degraders at the soil-litter interface.
    Ditterich F, Poll C, Pagel H, Babin D, Smalla K, Horn MA, Streck T, Kandeler E.
    FEMS Microbiol Ecol; 2013 Oct 14; 86(1):85-100. PubMed ID: 23560662
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  • 18. Influence of wheat ash on the MCPA immobilization in agricultural soils.
    Hiller E, Fargasová A, Zemanová L, Bartal M.
    Bull Environ Contam Toxicol; 2008 Sep 14; 81(3):285-8. PubMed ID: 18584109
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