Effect of Deficit Irrigation Practice on Nitrogen Mineralization and Nitrate Nitrogen Leaching under Semi-Arid Conditions

Abstract

Agricultural sector acts as a major consumer of water which accounts for 70 percent of global freshwater use. Water scarcity acts as an imminent threat to agriculture, there is a need to use those irrigation and management practices that could overcome this overwhelming situation of water scarcity. Lab incubation study was designed to evaluate the effect of different moisture levels (50%, 60%, 70%, 80%, 90%, and 100% FC) on nitrogen mineralization rate. Net nitrogen mineralization was shown at 60% and 80% FC levels. Two opti-mized irrigation levels (I 0.6 and I 0.8 ) along with four levels of dairy manure (10, 15, 20, and 25 Mg ha −1 ) were used in a lysimetric trial. Nitrate-nitrogen was measured at four depths (D 1 : 30 cm, D 2 : 60 cm, D 3 : 90 cm, and D 4 : 120 cm). Results showed strong interaction of irrigation and dairy manure at all depths. Mean maximum nitrate-nitrogen concentration was shown under full irrigation at 120 cm soil depth with the application of DM @ 25 Mg ha −1 . Under two levels of deficit irrigation, I 0.8 has shown maximum nitrate-nitrogen concentration at 90 cm soil depth with the application of DM 25 , however, deficit irrigation level I 0.6 restricted nitrate-nitrogen movement up to 60 cm soil depth, and high concentration was found at 30 cm soil depth. We concluded that deficit irrigation practice along with dairy manure resulted in more nitrate-nitrogen in the upper 60 cm layer of soil where it can be more available for the crops.