Effect of Non-Inversion Tillage Methods of Processing Agrochernozems on the Activity of Polyphenol Oxidase and Peroxidase

The effect of non-inversion tillage methods on the activity of the enzymes of polyphenol oxidase (PFOA) and peroxidase (PO) was studied. The effect of pedoecological conditions on the level of polyphenol oxidase and peroxidase activity of agrochernozem was assessed and their contribution to the formation of mobile humic substances was revealed. The enzyme activity was studied using the Galstyan photocolorimetric method. No significant patterns of the dynamics of polyphenol oxidase activity of agrochernozem were found. In the first 2–3 years of observations, there was a tendency to increase the activity of PFOA when using non-inversion tillage. Under the conditions of inversion tillage, the dynamics of PFOA activity was determined by the level of moisture and catalase activity of agrochernozem. When using non-inversion tillage technologies, the dependence of PFOA activity on the direction of transformations of the mobile organic matter of the soil (MOM) was revealed. The variances of soil PO activity were associated with the variability of PFOA activity. During the study period, peroxidase activity was higher during non-inversion tillage. The specifics of the conditions that developed during flat-cutting tillage determined the role of peroxidase activity not only as a catalyst stimulating mineralization processes, but also as a factor contributing to the transformation of newly formed humic substances into more complex humus components. The dynamics of peroxidase activity in the soil of all variants was determined by the rhythm of transformations of water-soluble organic compounds. The use of flat-cut cultivators increased the proportion of catalase and organic compounds extracted by decinormal alkaline extraction (C_0.1NaOH).

non-inversion tillage technologies, enzymes, polyphenol oxidase, peroxidase, humification coefficient, agrochernozem