An Asian Journal of Soil Science

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Role of Sulton Application on Different Crops under Climate Change


Affiliations
1 Directorate of Extension, C.S. Azad University of Agriculture and Technology, Kanpur (U.P.), India
     

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A study was carried out for two consecutive years during rainy and winter seasons of 2009-10 and 2010-11 on S deficit soils of different districts, situated in the area juridication of C.S. Azad University of Agriculture and Technology, Kanpur. The main objective was to find out the suitable dose of sulton for enhancing the production of different crops and simulate the modeling of sulton use based on watershed technology. The summarized results of two years innovative-cum-adaptive trials indicate that wheat responded to the application of 35 kg sulton/ha, which increased the grain yield by 8.80 q/ha or 20.70 per cent over control. Sesamum responded upto use of 35 kg sulton/ha, which gave higher yield of 1.15 q/ha or 25.55 per cent over control. The linear increase was recorded in pod yield of groundnut upto higher tested dose of 55 kg sulton/ha, which increased the pod yield by 5.80 q/ha or 28.30 per cent over control. The pulse crops responded upto use of 25 kg sulton/ha. The application of sulton @ 25 kg/ha enhanced the kernel yield by 34.60 per cent of arhar, 31.25 per cent of urd, 25.05 per cent of gram, 25.10 per cent of field pea and 21.85 per cent of lentil as compared to control under moisture stress condition. Tuber yield of potato increased by 20.35 per cent with the use of 50 kg sulton/ ha over control. Application of 70 kg sulton/ ha increased bulb yield of onion by 22.43 per cent and garlic by 21.52 per cent over conventional systems of their cultivation. Therefore, integration of sulton with RDF of different crops can be done for enhancing the production on S deficit soils.

Keywords

Integration of Sulton, Kernel Yield, NEAIS Saudi Arbia, S Deficit Soils, Simulation Model, Watershed Technology.
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  • Role of Sulton Application on Different Crops under Climate Change

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Authors

R. A. Singh
Directorate of Extension, C.S. Azad University of Agriculture and Technology, Kanpur (U.P.), India
P. K. Rathi
Directorate of Extension, C.S. Azad University of Agriculture and Technology, Kanpur (U.P.), India

Abstract


A study was carried out for two consecutive years during rainy and winter seasons of 2009-10 and 2010-11 on S deficit soils of different districts, situated in the area juridication of C.S. Azad University of Agriculture and Technology, Kanpur. The main objective was to find out the suitable dose of sulton for enhancing the production of different crops and simulate the modeling of sulton use based on watershed technology. The summarized results of two years innovative-cum-adaptive trials indicate that wheat responded to the application of 35 kg sulton/ha, which increased the grain yield by 8.80 q/ha or 20.70 per cent over control. Sesamum responded upto use of 35 kg sulton/ha, which gave higher yield of 1.15 q/ha or 25.55 per cent over control. The linear increase was recorded in pod yield of groundnut upto higher tested dose of 55 kg sulton/ha, which increased the pod yield by 5.80 q/ha or 28.30 per cent over control. The pulse crops responded upto use of 25 kg sulton/ha. The application of sulton @ 25 kg/ha enhanced the kernel yield by 34.60 per cent of arhar, 31.25 per cent of urd, 25.05 per cent of gram, 25.10 per cent of field pea and 21.85 per cent of lentil as compared to control under moisture stress condition. Tuber yield of potato increased by 20.35 per cent with the use of 50 kg sulton/ ha over control. Application of 70 kg sulton/ ha increased bulb yield of onion by 22.43 per cent and garlic by 21.52 per cent over conventional systems of their cultivation. Therefore, integration of sulton with RDF of different crops can be done for enhancing the production on S deficit soils.

Keywords


Integration of Sulton, Kernel Yield, NEAIS Saudi Arbia, S Deficit Soils, Simulation Model, Watershed Technology.