Effect of different organic amendments on the dissipation of linuron, diazinon and myclobutanil in an agricultural soil incubated for different time periods

• Soil amendment with organic residues affected differently the dissipation of pesticides in an agricultural soil.
• Dissipation increased (linuron) or decreased (diazinon and myclobutanil) in amended soil.
• The highest pesticide dissipation was recorded in amended soil with the highest soluble carbon.
• Effect of soil aging on dissipation was consistent with changes in pesticide sorption.
• Different dissipation mechanisms were revealed from mineralized and extractable amounts.

Dissipation kinetics of pesticides belonging to three chemical groups (linuron, diazinon and myclobutanil) was studied in an unamended agricultural soil and in this soil amended with three organic residues: sewage sludge (SS), grape marc (GM) and spent mushroom substrate (SMS). The soils were incubated with the residues outdoors for one and 12 months. Mineralized, extracted and non-extractable fractions were also studied for 14C-linuron and 14C-diazinon. The dissipation kinetics was fitted to single first-order or first-order multicompartment models. The dissipation rate (k) decreased in the order diazinon > linuron > myclobutanil, and DT50 values decreased for linuron (1.6–4.8 times) or increased for myclobutanil (1.7–2.6 times) and diazinon (1.8–2.3 times) in the amended soils relative to the unamended soil. The lowest DT50 values for the three pesticides were recorded in GM-amended soil, and the highest values in SMS-amended soil. After 12 months of soil incubation, DT50 values decreased in both the unamended and amended soils for linuron, but increased for the unamended and SMS-amended soil for diazinon and myclobutanil. A certain relationship was observed between the sorption of pesticides by the soils and DT50 values, although it was significant only for myclobutanil (p < 0.05). Dissipation mechanism recorded the lowest mineralization of 14C-pesticides in the GM-soil despite the highest dissipation rate in this soil. The extracted 14C-residues decreased with incubation time, with increased formation of non-extractable residues, higher in amended soils relative to the unamended soil. Soil dehydrogenase activity was, in general, stimulated by the addition of the organic amendments and pesticides to the soil after one month and 12 months of incubation. The results obtained revealed that the simultaneous use of amendments and pesticides in soils requires a previous study in order to check the environmental specific persistence of these compounds and their effectiveness in amended soils.

Figure optionsDownload as PowerPoint slide