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The adsorption and mechanism of the nitrification inhibitor nitrapyrin in different types of soils.

Royal Society open science (2020-10-14)
Zhongqing Zhang, Qiang Gao, Jingmin Yang, Yue Li, Jinhua Liu, Yujun Wang, Hongge Su, Yin Wang, Shaojie Wang, Guozhong Feng
RESUMEN

The nitrapyrin was easily adsorbed by soil, but most current studies have focused on comparing the effects of nitrapyrin application at different soil organic matter levels and in different soil types. The adsorption kinetics and isotherm adsorption of the nitrification inhibitor nitrapyrin in black soil, chernozem and planosol were studied in this paper. The adsorption kinetics were fitted by quasi-second-order kinetic equation (R2≥ 0.8907, p < 0.05) with a lower acting energy of adsorption (Ea < 8.0 kJ mol-1). The isotherm was fitted by the Langmuir equation (R2≥ 0.9400*, p < 0.05). The adsorption mechanism was determined to involve a spontaneous endothermic reaction accompanied mainly by physical adsorption to the surface that belonged to the 'L' isotherm curve (n > 1). Temperature promoted the adsorption of nitrapyrin in these three soils, and the maximum adsorption occurring at different temperatures following the order of black soil > planosol > chernozem. The adsorption capacity and rate decreased with decreasing soil organic matter. For the black soil, the nitrapyrin EC adsorption rate was more than seven times higher than that of nitrapyrin CS. The result would determine the dose of nitrapyrin required for availability in different types of soils and to provide a theoretical basis for elucidating the adsorption of nitrapyrin in the soil environment.

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2-Chloro-6-(trichloromethyl)pyridine, ≥98%