ISSN 2285-6064, ISSN CD-ROM 2285-6072, ISSN-L 2285-6064, Online ISSN 2393-5138
 

THE EFFECTS OF DIFFERENT IRRIGATION WATER AND NITROGEN LEVELS ON THE WATER-NITROGEN-YIELD FUNCTIONS OF WATERMELON

Published in Scientific Papers. Series E. Land Reclamation, Earth Observation & Surveying, Environmental Engineering, Vol. V
Written by Ulas SENYIGIT, Riza KANBER, Atef HAMDY

Different irrigation methods (S: Sprinkler; D: Drip), nitrogen forms (L: Liquid; G: Granule), water and nitrogen levels (based on applied line source sprinkler) and watermelon varieties (P: Paladin; M: Madera) were studied in the experiment. The research was conducted in Research and Production Farm of Cukurova University. Experimental design was strip for the first year and split-strip for the second year. Irrigation water was calculated using cumulative evaporation (Ep) from Class A-pan. Significant linear relationships were obtained between the yield and irrigation water, and between the yield and evapotranspiration at 1% confidence level. Yield response factor (Ky) values were determined as 1.07 for total yield and 1.49 for marketable yield. Since Ky>1, watermelon was sensitive to water deficiency. In addition, total water use efficiencies (TWUE) and irrigation water use efficiencies (IWUE) ranged from 1.80 to 11.33 kg da-1 mm-1 and from 7.29 to 16.47 kg da-1 mm-1 respectively. This finding indicated that WUE and IWUE values increased with the decreasing evapotranspiration and irrigation water.

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