Nutrient management of guinea grass (Panicum maximum J.) under open and shaded conditions

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Date
2004
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Department of Agronomy, College of Agriculture, Vellayani
Abstract
A field experiment was conducted at the Instructional Farm, College of Agriculture, Vellayani, Thiruvananthapuram, Kerala state to find out the nitrogen and phosphorus requirement for guinea grass (Panicum maximum J.) under zero and 50 per cent shade levels. The influence of shade levels, nitrogen and phosphorus application on growth parameters, fodder yield, quality of produce, physiological parameters, uptake of nutrients, chemical properties of soil and economics was investigated. Two levels of shade (0 and 50 per cent), three levels of nitrogen (100, 200 and 300 kg ha") and three levels of phosphorus (25, 50 and 75 kg ha") were combined to form eighteen treatment combinations. The experiment was laid out in split plot design with three replications. Results of the experiment revealed that lower levels of shade as well as higher- levels of nitrogen and phosphorus had significant positive influence on improving the fodder production potential of guinea grass. The lower levels of shade and higher doses of nitrogen and phosphorus were found to increase significantly the growth parameters namely number of tillers and leaf: stem ratio and physiological parameters like leaf area index, CGR, RGR and NAR. , Lower levels of shade and higher doses of nitrogen and phosphorus registered maximum green fodder yield in all the five harvests. Total green fodder yield was also highest at open and at higher levels of nitrogen and phosphorus. Similar results were obtained in the case of dry fodder yield also. Quality parameters of the forage significantly improved as shade progresses. Higher levels of nitrogen and phosphorus registered higher crude protein and chlorophyll contents and lower crude fibre content. The nutrient content of plant showed a significant increase with increasing levels of shade while the nutrient uptake showed a significant increase with lower levels of shade. Application of nitrogen and phosphorus significantly increased the content and uptake of nitrogen, phosphorus and potassium. There was a significant increase In available phosphorus and a decrease in available potassium content of the soil with increase in shade levels. Application of nitrogen significantly increased the nitrogen content of the soil while reduced phosphorus and potassium content of the soil after the experiment. Phosphorus levels also significantly increased the nitrogen and phosphorus content but potassium content of the soil after the experiment showed a parabolic type of response. Lower levels of shade with higher dose of nitrogen and phosphorus registered highest net returns and benefit cost ratio. But economic yield was obtained in shade intensity upto 50 per cent.
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172270
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