TY - BOOK AU - Nisha S K AU - Sreelathakumary, I (Guide) TI - Standardization of agrotechniques for precision farming in watermelon [Citrultus lanatus (Thunb.) Mastum. & Nakai] U1 - 635.6 PY - 2017/// CY - Vellayani PB - Department of Olericulture, College of Agriculture KW - Olericulture N1 - PhD N2 - The investigation entitled “Standardization of agrotechniques for precision farming in watermelon [Citrullus lanatus (Thunb.) Matsum. & Nakai]” was carried out at the Department of Olericulture, College of Agriculture, Vellayani, during the period 2014-2016, to identify small fruited varieties / hybrids of watermelon with high yield and quality and to standardize the agrotechniques for precision farming in watermelon. The investigation comprised of two separate experiments. The first experiment on ‘Evaluation of varieties / hybrids of watermelon’ was undertaken from December 2014 to April 2015. The experimental material consisted of 20 watermelon accessions, including three varieties and 17 hybrids. The experiment was laid out in RBD with two replications. The analysis of variance revealed highly significant differences among the twenty accessions for all the characters studied. The highest yield plant-1 was recorded in the hybrid IB-23 (14.17 kg) followed by IB-20 and Saraswati, while the highest fruits plant-1, high TSS and earliness in flowering as well as harvest was observed in the hybrid Prachi. The variety Arka Muthu registered the lowest vine length of 1.20 m. High and moderate phenotypic and genotypic coefficients of variation (PCV and GCV) were noticed for most of the yield contributing characters. High estimates of heritability coupled with high to moderate genetic advance as per cent of mean was recorded for all the yield components, indicating additive gene action. Yield had positive and significant correlation with the yield contributing characters such as fruit equatorial diameter, fruit polar diameter, fruits plant-1, fruit weight and seeds fruit-1. Path analysis revealed that fruit weight had the highest positive direct effect on yield plant-1 followed by fruits plant-1. Fusarium wilt was the major disease observed in few accessions during the study. Sensory evaluation revealed the superiority of the hybrid Prachi over other accessions. The second experiment on ‘Standardization of agrotechniques for precision farming under rain shelter and open condition’ was conducted simultaneously under rain shelter and open condition, from December 2015 to April 2016, using the best hybrid Prachi. It was conducted in factorial RBD with twelve treatments and two controls, with two replications. The treatments were three levels fertilizer viz., F1 - 75% of recommended dose (RD) (52.5: 37.5: 90 kg NPK ha-1), F2 - 100% of RD (70: 50: 120 kg NPK ha-1) and F3 - 125% of RD (87.5 : 62.5: 150 kg NPK ha-1); irrigation at two levels ie., I1- 80% Epan and I2 - 60% Epan; and two levels of training viz., T1- nipping to one vine and T2 - nipping to two vines. Vines were trained vertically under rain shelter and horizontally in open cultivation. The two controls were, Control 1- Ad hoc recommendation for precision farming (70: 50: 120 kg NPK ha-1) with irrigation at 100% Epan and Control 2 - KAU Package of Practices recommendations (POP). Fertilizer levels had significant influence on flowering and yield attributes of watermelon. The treatment F2 registered highest yield plant-1 both under rain shelter and open condition, and was on par with F1 under rain shelter. The effect of irrigation on vine length, fruit equatorial diameter, polar diameter and ascorbic acid content was also significant under both conditions. The irrigation level I1 recorded the highest yield plant-1 under rain shelter (11.10 kg) and open (8.42 kg). Training to two vines significantly improved fruits plant-1 and yield plant-1 under rain shelter while training had no significant influence under open condition. The water requirement was 272.27 mm (I1) and 179.63 mm (I2) under rain shelter and 239.79 mm (I1) and 184.02 mm (I2) in open condition. Compared to conventional surface irrigation, drip irrigation registered higher water use efficiency at both levels of irrigation. Pooled analysis also revealed that yield plant-1 was the highest in fertilizer level F2, irrigation level I1 and training level T2. Among the growing conditions, rain shelter recorded the highest number of fruits plant-1 (5.49), yield plant-1 (10.05 kg) and maximum days to final harvest (115.53 DAT). Interaction effect of rain shelter with training to two main vines recorded the highest fruits plant-1 (6.08) and yield plant-1 (10.73 kg). Among the controls, Ad hoc recommendation for precision farming was significantly superior to KAU POP recommendation. The present study revealed the superiority of fertilizer dose 70: 50: 120 kg NPK ha-1 (F2) and daily irrigation at 80 per cent Epan (I1) for watermelon under rain shelter and open condition for yield and quality. Training to two vines could be recommended for higher production under rain shelter. The hybrids Prachi, Saraswati and Simran producing fruits having high TSS, small size and more number of fruits were found promising under South Kerala condition UR - http://krishikosh.egranth.ac.in/handle/1/5810143089 ER -