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1.
Article | IMSEAR | ID: sea-230836

ABSTRACT

The field experiment was conducted at Agronomy Research FaTArm, Narendra Deva University of Agriculture and Technology, Narendra Nagar (Kumarganj) Faizabad (U.P.), during Rabi season of 2014-2015. The yield components like number of spikes m-2, spike length (cm), number of grain spike-1, grain weight spike-1(g), grain yield (kg ha-1), straw yield (q ha-1) and nitrogen contain in grain (%), nitrogen contain in straw (%), nitrogen uptake in grain (kg ha-1), nitrogen uptake in straw, protein content in grain (%) were maximum under 160 kg N ha-1 and among the varieties over PBW-373, NW-1014 being at par with HD-2327. The main aim of trial conducted that to know the different varietal parameters of wheat crop.

2.
Article | IMSEAR | ID: sea-230661

ABSTRACT

Sustainable agriculture mostly relies on conservation tillage, crop residue retention and crop diversification. Weeds are major production hurdles in adoption of conservation agriculture (CA), therefore, weed management is important for sustainable crop yield. Designing efficient integrated weed management (IWM) practices under zero-tillage with crop residue (ZT+R) is helpful in getting optimum yield. A field experiment was carried out at research farm of ICAR-Directorate of Weed Research, Jabalpur (M.P.), India with eight treatment combinations, two crop establishment methods (conventional tillage and conservation tillage) in main plots and four weed management practices (weedy check, recommended herbicide, IWM, and herbicide rotation) in sub-plots were evaluated using a split plot design with three replications. The results indicated that the wheat sown under ZT+R led to significantly less weed density (105.9 no. m-2 in 2020-21 and 122.8 no. m-2 in 2022-23) and biomass (149.7 and 174.2 g m-2, respectively) hence, registered the highest weed control efficiency (WCE, 72.3% and 71.2%, respectively). Higher WCE helped in producing better wheat growth indices like plant height (106.3 and 101.1 cm, respectively), biomass (12.0 and 9.0 g plant-1, respectively) and no. of tillers (488.0 and 391.3 no. m-2, respectively) ultimately grain yield (4164 and 3814 kg ha-1, respectively) and straw yield (7265 and 6834 kg ha-1, respectively) compared with conventional tillage during both the years. Among the weed management practices, ready-mix application of clodinafop + metsulfuron at 60+4 g ha-1 (30-35 days after sowing, DAS) followed by (fb) hand weeding at 45 DAS increased growth indices like plant height (110.2 and 105.0 cm, respectively), plant biomass (14.9 and 12.1 g plant-1, respectively) and no. of tillers (547.2 and 436.7 no. m-2, respectively) ultimately grain yield (4708 and 4299 kg ha-1, respectively) and straw yield (7836 and 7610 kg ha-1, respectively), and WCE (97.4% and 96.8% respectively) with significantly less weed density (25.7 and 35.0 no. m-2, respectively) and biomass (13.6 and 19.9 g m-2, respectively) at 90 days after sowing. IWM also completely reduces the weed density and biomass over the other weed management practices during both the years. Therefore, wheat sown under ZT+R coupled with IWM was superior in terms of weed control, crop growth and yields.

3.
Article | IMSEAR | ID: sea-230279

ABSTRACT

At the Experimental Field of Herbal Garden Department of Plant Physiology JNKVV Jabalpur, the experiments were conducted in the academic years 2020–20221 and 2021–2022. In a pot experiment, a comparison of the effects of four synthetic PGRs—Abscisic Acid (ABA), Naphthyl Acetic Acid (NAA), Salicylic Acid (SA), and Fusaric Acid (FA)—against four varieties of chickpeas that had been intentionally inoculated with the wilt pathogen Fusarium oxysporum and exposed to low temperatures. This study sought to determine the phenophasic response to reduce stress tolerance in order to achieve the highest possible mean production. The findings demonstrated that applying ABA to plants at concentrations of 5 and 2 ppm was successful in extending the vegetative development period by delaying flowering, allowing flowering to avoid the detrimental impacts of wilt and cold and so promoting stress tolerance. This resulted in reduced percentage of wilt and cold incidence as compared to all other treatments, leading to higher mean productivity. However, Fusaric acid (FA), a fungal toxin responsible for early in flowering that allowed flower to coincide with wilt and cold occurrence timing. Flowering is also very sensitive to cold stress therefor occurrence of wilt at seedling and cold at flowering accelerated the incidence of wilt and cold, which resulted in lower mean productivity after applying Fusaric acid (FA) @ 10 and 20 ppm.

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