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ThesisItem Open Access Modeling Salt and Moisture Distribution in Soil Profile Under Drip Irrigation with Saline Water(PUNJAB AGRICULTURAL UNIVERSITY, 2009) Dhananjay D. Nangare; K.G. SinghThe experiment was conducted at Central Institute of Post Harvest Engineering and Technology (CIPHET), Abohar in 2009-10 to study the effect of different salinity levels of irrigation water on yield and quality of tomato crop under three irrigation level 0.6, 0.8 and 1.0) and three discharge rates of emitters (1.2, 2.4 and 4.2 lph). The five different salinity levels of irrigation water was prepared by mixing fresh and saline water in 100:0, 75:25, 50:50, 25:75, 0:100 percent fresh and saline water. The results revealed that the crop yield decreased with increase in salinity ratios of irrigation water. The yield decreased with increase in discharge rates of emitters. The yield increased with increase in irrigation level from 0.6 to 1.0. The yield was found maximum when fresh water is applied with discharge rate of 1.2 lph and with irrigation level of 0.8. The yield under each salinity of irrigation water treatment was found significantly different to each other. The lower rate of water application reduced the salinity in soil profile compared to higher rates of emitter discharge rates. The quality parameters TSS, acidity and ascorbic acid were found increased with increase in salinity of water treatment. The SALTMED model was used for simulating the soil moisture, salinity (Ec) and crop yield under different ratios of salinity of irrigation water and different discharge rates of emitters. The close agreement was found between the observed and simulated values. The overall average relative error between the simulated and observed values was found 11.03 percent, 17.16 percent and 9.26 percent for soil moisture, soil salinity and crop yield, respectively.