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In agriculture aspect crop simulation models play key role in developing the decision making research, technology management and policy options. It acts as useful tool to predict the growth development and production of a crop under varying soil, crop input and climatic condition. The DSSAT CROPGRO model was calibrated and validated through field experiment on chickpea crop during rabi seasons i.e. 2020-21 and 2021-22 at instructional farm Indira Gandhi Krishi Vishwavidyalaya, Raipur Chhattisgarh. The experiment was laid out in randomized block design (factorial) considering 9 treatments of two factors 3 dates of sowing (D1=Nov. 10, D2=Nov. 25, D3=Dec. 10) and 3 cultivars (V1=Vaibhav, V2=JG-14 and V3=JG-16). The results reported highest deviation percentage at anthesis days was (4.8 to 10 %) and physiological maturity was (1.7 to 5.5%) for JG-16 cultivar, whereas in seed yield the highest deviation percent was (6.2 to 9%) for Vaibhav cultivar. Similarly after validation the highest deviation percentage at anthesis days was (0 to 10.7%) for JG-16, at physiological maturity (1.8 to 3.6%) for Vaibhav and in seed yield (2.4 to 9.5%) for JG-16.
RESUMEN
Aims: This study aims to scrutinize the intricacies of nutrient management to optimize the cultivation of black gram (Vigna mungo L.) during the Rabi season of 2022-2023 in Coimbatore. The primary objectives include evaluating the efficacy of various treatments, such as recommended doses of inorganic fertilizer (RDF), rhizobium, and Phosphobacteria microbial inoculants as soil applicants, as well as TNAU Pulse Wonder, nano urea, and DAP as foliar sprays.Study Design: A meticulous Randomized Block Design (RBD) with three replications was employed to explore diverse treatments. This design allowed for a systematic investigation into the impact of different nutrient management strategies on the growth and yield of black grams.Place and Duration of Study: The study was conducted in Coimbatore, and the Rabi season of 2022-2023 was chosen for its duration. The experimental setup was established at the research farm under the auspices of the Karunya Institute of Technology and Sciences.Methodology: A total of ten treatments were tested, including various combinations of RDF (25:50:25), rhizobial culture, phosphobacteria, TNAU Pulse Wonder, nano urea, and DAP. Plant growth metrics, such as plant height and leaf count, were measured at 60 days after sowing (DAS). Yield attributes, including pod count, seeds per pod, and test weight, were also evaluated. Economic scrutiny included the calculation of the cost of cultivation, gross return, net income, and benefit-cost ratio.Results: Treatment T7, consisting of 75% RDF, rhizobial culture, phosphobacteria, and 1% TNAU Pulse Wonder, demonstrated substantial efficacy in enhancing plant growth metrics. At 60 DAS, this treatment exhibited an appreciable increase in plant height (39.89 cm) and leaf count (15.33). Moreover, T7 positively impacted crucial yield attributes, with elevated pod count (24.33), seeds per pod (9.33), and test weight (4.98 g). Economic scrutiny identified T7 as the epitome of economic viability, featuring a cost of cultivation at 30,240 INR, gross return of 125,587.80 INR, net income of 95,347.80 INR, and a commendable benefit-cost ratio of 4.15.Conclusion: These findings underscore the profound significance of strategic nutrient management paradigms for fostering sustainable and economically robust black gram cultivation. The identified treatment T7 stands out as a promising approach to optimize yields and economic returns in black gram cultivation, offering valuable insights for future agricultural practices.
RESUMEN
An experiment was carried out at Faculty of Agriculture Department of Agricultural Meteorology Farm, Centre for Advanced Agricultural Meteorology, College of Agriculture, Pune during Kharif seasons of 2014 and 2015.The experiment was laid out in split plot design with three replications.The treatment comprised of three brinjal hybrids viz.,V1:Phule Arjun, V2: Krishna, V3: Panchganaga as main plot and four planting windows viz., P1: 31st MW (30 July-5 August), P2: 32ndMW (6-12August), P3:33rdMW (13-19 August) and P4: 34thMW (20-26 August) as sub plot treatments.Cumulative GDD, HTU and PTU at the end of each growth stages showed that numerically higher requirement was observed in hy.Phule Arjun over hy.Krishana and hy.Panchganaga hybrids during both year 2014 and 2015 experimentation period. Whereas, the lowest canopy temperature was found in hy.Phule Arjun (29.0 0C) than rest of the brinjal hybrids. Canopy reflected PAR and transmitted PAR was higher in (191.54 and 188.62 µ mol m-2s-1) Panchganaga hybrids among the brinjal hybrids. Heat unit requirement or GDD has been used for characterizing the thermal response in brinjal crop. GDD for entire crop growing period decreased with subsequent delay in planting. HTU and PTU were also decreased during later planting windows condition. GDD in different stages in that emergence (59.6 and 72.3), vegetative growth (481 and 478), 50% flowering (575 and 568), first harvesting (681 and 645), last harvesting (1178 and 1183) was observed in hybrid Phule Arjun during 2014 and 2015, respectively. Lower GDD was observed in hy.Panchaganaga during 2014 and 2015, respectively. The highest HTU observed in 31st MW planting windows in hybrids Phule Arjun (5376 and 9190.4).This was followed by hy.krishna and Panchganaga (5370 and 9086) during 2014 and 2015, respectively. Highest HTU was observed in 31st MW in hybrids Phule Arjun followed by hy.krishna and lower in panchganga.