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World Phosphorus Use Efficiency in Cereal Crops Guilherme Torres, Natasha Macnack, Bee Chim, Jeremiah Mullock, and William Raun Oklahoma State University, Plant and Soil Science Department. World demand for phosphorus
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World Phosphorus Use Efficiency in Cereal Crops Guilherme Torres, Natasha Macnack, Bee Chim, Jeremiah Mullock, and William RaunOklahoma State University, Plant and Soil Science Department • World demand for phosphorus • Phosphorus (P) is the second most limiting nutrient in crop systems and positively correlated with world food production. • Batjes (1997) estimated that P deficiency can be found in 67% of the world land designated for crop production. • Soil orders with potential P deficiency account for approximately 51% of the world soils (Brady and Weil, 2008) (Table 1). • Based on current consumption, P reserves have been estimated to last from 100 years (Heffer et al., 2006) to 343 years (Roberts and Stewart, 2002). • Table 1. Global distribution, potential macronutrient deficiency and nutrient toxicity associated with major soil orders†. • †Adapted from Baligar et al. (2001). • ‡ Brady and Weil, 2008. • Objective • Macro data was used to estimate mean and current global P use efficiency of cereal crops based on harvested area, fertilizer consumption, and production quantity. • Global Phosphorus Use Efficiency • 50 years (1961 to 2011) of world fertilizer P consumption, cereal harvested area, and production were obtained from the FAOSTAT database (2011) to estimate phosphorus use efficiency (PUE). • Crops included maize, rice, wheat, sorghum, barley, millet, oats, rye, triticale and minor cereal crops. • Cereal harvested area represents 55% of the total harvested area. • Cereal P consumption = World P consumption x 55%. • Figure 1: Global phosphorus fertilizer consumption and fertilizer phosphorus consumption by cereal crops from1961 to 2011. • Grain P uptake and P removed from the soil • Cereal grain P uptake was calculated by multiplying the crop specific grain P content by the production of that given crop. • It was assumed that 79.3% of the P found in the grain came from the soil and not the fertilizer.This value was computed from averaging data found in literature for P removal. • PUE was calculated as: • Cereal Production and P Consumption • Over the last 50 years, world fertilizer P consumption has been increasing at a rate of 212,855 Mg yr -1(Figure 1). • There was a 346% increase in P fertilizer usage in 50 years. • 50-year cereal production average was 1,704,807,560 Mg. • Cereal production was 2,432,818,753 Mg in 2010 • World cereal yield increased from 1.35 to 3.57 Mg ha-1 between 1961 and 2010. • Phosphorus Use Efficiency • 50 year and current world PUE for cereal crops was 15.7% and 19.2% • PUE ranged from 12.0% in 1980 to 20.2% in 2008 (Figure 2). • Figure 2: Historical estimates of world phosphorus use for cereal crops. • Conclusion • Global PUE is low (12-20%), indicating that P fertilization methods need to be improved in order to preserve the longevity of P reserves. • References • Baligar, V.C., N.K. Fageria, and Z.L. He. 2001. Nutrient use efficiency in plants. Commun. Soil Sci. Plant Anal. 32:921-950. • Batjes, N.H. 1997. A world dataset of derived soil properties by FAO–UNESCO soil unit for global modelling. Soil Use Manage. 13:9-16. • Brady, N.C., and R.R. Weil. 2008. The nature and properties of soils. 14th ed. Prentice Hall, Upper Saddle River, NJ. • Food and Agriculture Organization. 2011. FAOSTAT: Statistics database. [Online.] Available at http://faostat.fao.org/ (verified 9 Jul. 2012). • Heffer, P., M.P.R. Prud'homme, B. Muirheid, and K.F. Isherwood. 2006. Phosphorus fertilisation: issues and outlook. Proc. Int. Fert. Soc. p. 1-32. • Roberts, T., and W. Stewart. 2002. Inorganic phosphorus and potassium production and reserves. Better Crops 86:6-7.