Abstract

We studied the effect of soil type, water content, salinity and sodicity on hydrolysis and nitrification of urea in laboratory at constant temperature (28°C ± 1°C). Hydrolysis and nitrification of urea were studied separately in two experiments using six soils maintained at −0.03 MPa water content after addition of 150 mg urea-N kg−1 soil. In the second set of experiments, the urea hydrolysis and nitrification were studied in normal, saline (6 dS m−1) and sodic (30 ESP) soils each maintained at water matric potential of −0.03, −0.5 and −1.5 MPa. The nitrogen was applied at the rate of 150 mg N kg−1 soil in both the experiments. Soil and urea-N mixtures were incubated for 48 h for urea hydrolysis and up to 60 days for nitrification. The rate of urea hydrolysis in different soils followed the order: Uchani silty clay loam > Kaithal clay loam > Hisar loam > Kurukshetra clay loam > Sonepat loamy sand > Bawal loamy sand. The values of first-order rate constant (k) varied from 0.039 – 0.069 h−1. The rate of urea hydrolysis slowed down with the decrease in water content from −0.03 MPa to −1.5 MPa. The amount of urea hydrolyzed was higher in normal as compared to saline or sodic soil. At −1.5 MPa water content, 31.9 – 37.6% of the added urea remained unhydrolyzed at 48 h in sodic and saline soils, respectively. The content of NO3[sbnd]N formation differed markedly among texturally different soils being highest in Kurukshetra clay loam and lowest in Bawal loamy sand. The NO2[sbnd]N appeared during 5 – 30 d and most of the NO2[sbnd]N was detected between 10 and 20 d in different soils. Decreasing the water content from −0.03 to −1.5 MPa decreased the NO3[sbnd]N in normal, saline and sodic soils.

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