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W4313487593 endingPage "137717" @default.
W4313487593 startingPage "137717" @default.
W4313487593 abstract "The applicability of herbicidal ionic liquids (HILs) as an alternative form of herbicides is currently evaluated. Yet, the available research is lacking information on the behaviour of herbicidal ionic liquids upon addition to the environment, i.e., if cations and anions act as separate moieties or remain an ionic salt. Hence, we tested degradation of five HILs with the glyphosate anion, their bioavailability in soil, toxicity towards microorganisms, impact on the biodiversity and the abundance of phnJ and soxA genes. The cations were proven to be slightly or moderately toxic. The properties of cations determined the properties of the whole formulation, which might suggest that cations and anion act as the independent mixture of ions. The mineralisation efficiencies were in the range of 15–53%; however, in the case of cations (except non-toxic choline), only 13–20% were bioavailable for degradation. The hydrophobic cations were proven to be highly sorbed, while the anion was readily available for microbial degradation regardless of its counterion. The approach to enrich test samples with isolated microorganisms specialised in glyphosate degradation resulted in higher degradation efficiencies, yet not high enough to mitigate the negative impact of cations. In addition, increased activity of enzymes participating in glyphosate degradation was observed. In the view of obtained results, the use of cationic surfactants in HILs structure is not recommended, as sorption was shown to be determining factor in HILs degradation efficiency. Moreover, obtained results indicate that corresponding ions in HILs might act as separate moieties in the environment." @default.
W4313487593 created "2023-01-06" @default.
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W4313487593 creator A5083009491 @default.
W4313487593 date "2023-03-01" @default.
W4313487593 modified "2023-10-14" @default.
W4313487593 title "Glyphosate versus glyphosate based ionic liquids: Effect of cation on glyphosate biodegradation, soxA and phnJ genes abundance and microbial populations changes during soil bioaugmentation" @default.
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W4313487593 doi "https://doi.org/10.1016/j.chemosphere.2022.137717" @default.
W4313487593 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36610512" @default.
W4313487593 hasPublicationYear "2023" @default.
W4313487593 type Work @default.