Plant, Soil and Environment (Mar 2024)

Dissipation dynamic of nicosulfuron in different types of agricultural soils

  • Siniša Mitrić,
  • Amer Sunulahpašić,
  • Dragana Šunjka,
  • Slavica Vuković,
  • Mirjana Žabić,
  • Saud Hamidović,
  • Biljana Kelečević

DOI
https://doi.org/10.17221/503/2023-PSE
Journal volume & issue
Vol. 70, no. 4
pp. 245 – 251

Abstract

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This work aimed to evaluate the influence of soil characteristics and the applied amount of nicosulfuron on the degradation rate in soil. Soil samples were collected at three localities in Bosnia and Herzegovina - Manjača, Kosjerovo and Tunjice. The experiment was carried out under controlled laboratory conditions. Plant protection product based on nicosulfuron (40 g a.s./L, OD) was applied in concentrations of 0.075, 0.15, and 0.30 mg a.s./kg of soil. Nicosulfuron residues were analysed by the modified QuEChERS method, followed by LC-MS/MS. Soils are classified as silty loams, with variations in mechanical composition and chemical properties. In slightly alkaline soil, the half-life (DT50) of nicosulfuron has increased (43.31 days) compared with DT50 (9.43-16.13 days) in acidic soils. The results indicate that soil characteristics and applied concentration significantly influence nicosulfuron persistence. Hence, it can be considered that nicosulfuron, applied to silty loam soils of Bosnia and Herzegovina, poses a low risk to subsequent crops and the environment.

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