Thordis Zegarski scite author profile

Extracellular, oxidative soil enzymes like monophenol oxidases and peroxidases play an important role in transformation of xenobiotics and the formation of organic matter in soil. Additionally, these enzymes may be involved in the formation of non-extractable residues (NERs) of xenobiotics during humification processes. To examine this correlation, the fate of the fungicide (14)C metalaxyl in soil samples from Ultuna (Sweden) was studied. Using different soil sterilization techniques, it was possible to differentiate between free, immobilized, and abiotic ("pseudoenzyme"-like) oxidative activities. A correlation between the formation of metalaxyl NER and soil organic matter content, biotic activities, as well as extracellular phenoloxidase and peroxidase activities in the bulk soil and its particle size fractions was determined. Extracellular soil-bound enzymes were involved in NER formation (up to 8% of applied radioactivity after 92 days) of the fungicide independently from the presence of living microbes and different distributions of the NER in the soil humic subfractions.

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Thordis Zegarski

Fate of pendimethalin in soil and characterization of non-extractable residues (NER)

A correlation between the fate and non-extractable residue formation of¹⁴C-metalaxyl and enzymatic activities in soil

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Thordis Zegarski

Fate of pendimethalin in soil and characterization of non-extractable residues (NER)

A correlation between the fate and non-extractable residue formation of14C-metalaxyl and enzymatic activities in soil

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Resources

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A correlation between the fate and non-extractable residue formation of¹⁴C-metalaxyl and enzymatic activities in soil