Mineral Fertilizer Use and the Environment International Fertilizer Industry Association United Nations Environment Programme
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9.2. Phosphate and potash Until a few years ago, it was believed that phosphate (and potash) “fixed” by the soil went over into plant-unavailable, inert and hence useless forms. There has, however, been a change of perception in recent years. Experiments have shown that in many soils reserves of plant available P and K can be built up over time. Soils enriched with these reserves frequently gave larger yields than soils without the reserves. Hence the plant-uptake figure of 15% for P underestimates the long-term efficiency of phosphate fertilizers. Phosphate (and potash) residues accumulated in the soil are not necessarily lost - but this is not a reason for accumulating these residues unnecessarily. There are critical values of phosphate and potash below which yield decreases appreciably and which represent a financial loss to the farmer. To accumulate P and K in the soil above these critical levels is an unnecessary cost for the farmer. It may also pose an environmental risk, in that soil lost by water or wind erosion to streams, rivers and lakes takes its nutrient load with it (A.E. Johnston, 1997). Further work is required to establish these critical soil levels under different conditions. Work to improve the plant uptake of applied P and K is also required. Phosphate has both direct and indirect effects. The increased availability of phosphate has a positive effect on the quantity and quality of agricultural outputs. Through indirect interaction effects, phosphate increases the response of agricultural production to the other inputs such as nitrogen and potassium and has positive effects on biological nitrogen fixation, soil organic matter maintenance, water-holding capacity, soil erosion control and other soil physical and chemical properties. All of these positive effects result in increased agricultural output, sustained productivity and land conservation (C.A. Baanante, 1998). 9.3. Products How can these high losses of nitrogen be reduced? In fact, improvements in fertilizer use efficiency can be detected in most agriculturally advanced regions, but this can be attributed to improvements in cultivation practices, techniques of fertilizer application and crop varieties. Apart from some developments in coated, controlled release fertilizers and nitrification inhibitors, there has been little significant change in the fundamental nature of the main fertilizer products for many years, or even decades. There is little incentive to invest in the research and development of a bulky, low-priced commodity which offers little scope for product differentiation. Download 213.65 Kb. Do'stlaringiz bilan baham: 
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