Kailash Prajapat scite author profile

A field experiment was conducted during rabi seasons of 2012-13 and 2013-14 to study the effect of moisture conservation and zinc fertilization on quality, nutrient uptake, profitability and moisture use indices of chickpea in pearlmillet-chickpea cropping sequence under limited moisture conditions. Moisture conservation and zinc fertilization brought considerable improvement in quality, nutrient uptake, profitability and moisture use indices of chickpea during both the years of study. Chickpea planted under flat bed with 5.0 t/ha crop residue recorded significantly higher protein yield and total uptake of N, P and K during both the years of study as compared to flat bed without crop residue and flat bed with 2.5 t/ha crop residue. However, in terms of protein content during 2012-13 and soil profile temperature during both the years all the treatments received crop residue remained at par with each other and proved significantly superior over flat bed without crop residue. Planting of chickpea under narrow bed and furrow fetched significantly higher net returns ( 55,871 and 55,263/ha) and production efficiency ( 372.5 and 337.0/ha/day) and moisture use efficiency (12.34 and 11.05 kg/ha-mm) during both the years of study over flat bed without crop residue and flat bed with 2.5 t/ha crop residue. Whereas, this treatment recorded significantly higher B:C ratio over flat bed with 5.0 t/ha crop residue. Under zinc fertilization, direct application of 5.0 kg Zn/ha significantly improved the protein content in grain during 2013-14 and protein yield, total uptake of N and P, net returns and production efficiency during both the years of investigation over lower levels. But application of 5.0 and 2.5 kg Zn/ha being at par with each other proved significantly better over control in terms of protein content during 2012-13 and total uptake of P, B:C ratio and moisture use efficiency of chickpea during both the years. Residual effect of zinc fertilization was also found to be significant on chickpea. The significant improvement in quality, nutrient uptake, profitability and moisture use efficiency were observed only up to 2.5 kg Zn/ha.

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Native arbuscular mycorrhizal fungi improve growth, biomass yield, and phosphorus nutrition of sorghum in saline and sodic soils of the semi–arid region

Chandra

Singh²,

Prajapat³

et al. 2022

Environmental and Experimental Botany

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Effect of Rice Residue Retention and Foliar Application of K on Water Productivity and Profitability of Wheat in North West India

et al. 2020

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The rice–wheat cropping system being the backbone of food security in South-Asia has resulted in soil health deterioration, declining water table, and air pollution affecting livability index of the region. The effect of rice residue retention (RRR), irrigation levels and foliar application of K on wheat grain yield (GY), water use efficiency (WUE) and profitability was tested over three years. RRR increased wheat GY (5224 kg ha−1), above-ground biomass (AGBM = 11.9 t ha−1), tillers per square meter (TPM = 469) and grains per meter square (GrPMS = 13,917) significantly. Relative water content (RWC = 93.8) and WUE (2.45 k gm−3) were also increased significantly by RRR. Consequently, profitability (Net return = 624.4 $ and Benefit to cost (B:C) ratio) was enhanced. Foliar application of K enhanced GY (5151 kg ha−1), AGBM (12 t ha−1), RWC (94.1), SPAD (52.2), WUE (2.40 kg m−3), net returns (625.2 $) and BC ratio (1.62) significantly. RRR increased GY (15.66%) and WUE (17.39%) with additional revenue of 151 $ with only one irrigation at the CRI stage (ICS). RRR adopted over 10% of the area can earn 187 million-US$ annually. RRR if adopted over existing practice on a large area would reduce environmental degradation with an enhanced income to small and marginal farmers.

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