Browsing by Author "Dutta, S. K."
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Item Adaptation Approaches for Direct Seeded Rice to Reduce Greenhouse Gas Emission in the Perspective of Climate Change(SCIENCEDOMAIN international, 2019-11) Choudhury, S. R.; Das, A.; Bharati, V.; Dutta, S. K.A field experiment was conducted at research farm, Bihar Agricultural University, Sabour, India during 2017 and 2018 to gain insight crop phonology mediated greenhouse gas emission under different tillage and nitrogen management practices in direct seeded rice (DSR). The experiment was conducted in split plot design with two tillage viz. zero tillage (ZT) and conventional tillage (CT) as main plot and four nitrogen management practices viz. 100% nitrogen through neem coated urea (S1), SPAD based nitrogen management (S2), 75% through neem coated urea + 25% nitrogen through vermicompost, (S3) and ¼ nitrogen as basal and rest in equal three splits at 20, 40, 60 DAS (S4) as sub plot, in three replication. The highest yield (4.69 t ha-1), net return (Rs 46440 ha-1) and B:C ratio (1.44) were recorded from zero tilled DSR. Further, highest yield (4.82 t ha-1), net return (Rs 44880 ha-1) and B:C ratio (1.36) was obtained under split application of nitrogenous fertilizers among other subplot treatments. The range of methane (0.57- 1.47 mg m-2 hr-1) carbon dioxide (0.32- 0.61 mg m-2 hr-1) and nitrous oxide (19.58- 38.79 µg m-2 hr-1) emission was recorded lowest in zero tilled plots and split application of nitrogenous fertilizer also emitted lowest values of 1.59 mg m-2 hr-1 methane, 0.86 mg m-2 hr-1 carbon dioxide and 46.76 µg m-2 hr-1 nitrous oxide at maximum tillering stage of crop growth. Moreover, methane and nitrous oxide emission was gradually decreased from maximum tillering to harvesting stage. Zero tilled DSR with split nitrogen fertilizer application ascribed lowest greenhouse gas intensity among the other crop establishment and nitrogen management options. Thus, zero tilled method of crop establishment with split application of nitrogenous fertilizer could be a remunerative and environmentally stable method for direct seeded rice cultivation.Item Effect of Microclimate on Yield and Quality Attributes of Cherry Tomato (Solanum lycopersicum L. var. cerasiforme) under Open Field and Polyhouse Conditions(SCIENCEDOMAIN international, 2020-04) C.; Singh, D.; Akhtar, S.; Dutta, S. K.Cherry tomatoes are usually cultivated under greenhouse which is out of the reach of the marginal farmers. Due to unavailability of microclimatic and biochemical data in cherry tomato, meagre yield is obtained at open field conditions. Since the microclimatic factors and growing environment have immense influence on yield and quality attributes of any crop, this experiment was aimed to study the correlation of microclimate with the yield and quality contributing traits of eighteen genetically diverse genotypes of cherry tomato at open field trained on trellis and under naturally ventilated polyhouse conditions. In the given study, under open conditions, mean canopy temperature in morning at 7 a.m. (15.3-19.4°C) showed highly significant positive correlation with total yield, whereas total yield possessed highly significant negative association with the mean mid-day (12 noon) canopy temperature and mean mid-day soil temperature above 25°C. In poly house condition, total yield reflected significant negative correlation with morning mean canopy temperature (24.6°C) and mid-day mean canopy temperature (25.8-26°C), whereas total yield was negatively correlated with morning and mid-day mean soil temperature when the temperature was above 20.7°C. Among biochemical parameters, lycopene and beta-carotene content increased with mean canopy temperature at 19.5°C and further decreased above 21.5°C, however TSS increased with increase in mean canopy temperature from 15 to 25°C and decreased beyond 30°C temperature.