References

  1. A.D. Hall. The analysis of the soil by means of the plant. J. Agric. Sci. 1:65-88, 1905.

  2. P. Macy. The quantitative mineral nutrient requirements of plants. Plant Physiol. 11:749-764, 1936.

  3. B. Dyer. Analytical determination of probably available mineral plant food in soils. Trans. Chem. Soc. 65:115-167, 1894.


  4. E. Truog. Determination of the readily available phosphorus of soils. Agron. J. 22:874-882, 1930.

  5. M.F. Morgan. Chemical Soil Diagnosis by the Universal Soil Testing System. Connecticut Agricultural Experiment Station Bulletin 45, 1941.

  6. R.H. Bray, L.T. Kurtz. Determination of total, organic, and available forms of phosphorus in soils. Soil Sci. 59:39-45, 1945.

  7. H.B. Kitchen (ed.). Diagnostic Techniques for Soil and Crops. The American Potash Institute. Washington DC, 1948.

  8. E.J. Russell. Soil Conditions and Plant Growth. 9th ed. New York: Wiley, 1961.

  9. D.T. Clarkson, J.B. Hanson. The mineral nutrition of higher plants. Ann. Rev. Plant Physiol. 32:239-298, 1980.

  10. R.L. Bieleski. Phosphate pools, phosphate transport, and phosphate availability. Ann. Rev. Plant Physiol. 24:225-252, 1973.

  11. R.L. Halstead, R.B. McKercher. Biochemistry and cycling of phosphorus. In: A. Paul, A.D. McLaren, eds. Soil Biochemistry. Vol. 4. New York: Marcel Dekker, 1975.

  12. W.H. Ko, F.K. Hora. Production of phospholipases by soil microorganisms. Soil Sci. 10:355-358, 1970.

  13. G. Anderson. Nucleic acids, derivatives, and organic phosphorus. In: A.D. McLaren, G.H. Peterson, eds. Soil Biochemistry. Vol. 1. New York: Marcel Dekker, 1967.

  14. T.I. Omotoso, A. Wild. Content of inositol phosphates in some English and Nigerian soils. J. Soil Sci. 21:216, 1970.

  15. J.H. Steward, M.E. Tate. Gel chromatography of soil organic phosphorus. J. Chromat. 60:75-78, 1971.

  16. M. Alexander. Microbial transformations of phosphorus. In: Introduction to Soil Microbiology. New York: Wiley, 1977.

  17. D.J. Cosgrove. Microbial transformations in the phosphorus cycle. In: M. Alexander, ed. Advances in Microbial Ecology. New York: Plenum Press, 1977.

  18. G. Anderson. Other organic phosphorus compounds. In: Soil Organic Components. Vol 1. New York: Springer Verlag, 1975.

  19. J. Feder. The phosphatases. In: E.J. Griffith, A. Beeton, J.M. Spencer, D.T. Mitchell, eds. Environmental Phosphorus Handbook. New York: Wiley, 1973.


  20. D. Lopez-Hernandez, C.P. Burnham. Phosphate sorption by organic soils in Britain. Transactions of the 10th International Soil Science Congress, 1974, pp. 73-80.

  21. A. Wild. The retention of phosphate by soil-A review. J. Soil Sci. 1:221-238, 1950.

  22. D.B. Bradely, D.H. Sieling. Effect of organic anions and sugars on phosphate precipitation by iron and aluminum as influenced by pH. Soil Sci. 76:175-179, 1953.

  23. S. Nagarajah, A.M. Posner, J.P. Quirk. Competitive adsorption of phosphate with polygalacturonate and other organic acids on kaolinite and oxide surfaces. Nature 228:83-85, 1970.

  24. I.C.R. Holford, G.E.G. Mattingly. Phosphate sorption by Jurassic Oolitic limestones. Geoderma 13:257-264, 1975.

  25. R.J. Hannapel, W.H. Fuller, S. Bosma, J.S. Bullock. Phosphorus movement in a calcareous soil. I. Predominance of organic forms of phosphorus in phosphorus movement. Soil Sci. 97:350-357, 1964.

  26. M. Fried, L.A. Dean. Phosphate retention by iron and aluminum in cation exchange systems. Soil Sci. Soc. Am. Proc. 19:142-147, 1955.

  27. E.G. Williams, N.M. Scott, M.J. McDonalds. Soil properties and phosphate sorption. J. Sci. Food Agric. 9:551-559, 1958.

  28. D.J. Greenland, J.M. Oades, T.W. Sherwin. Electron microscope observations of iron oxides in some red soils. J. Soil Sci. 19:123-126, 1968.

  29. R.L. Fox, E.J. Kamprath. Adsorption and leaching of P in acid organic soils and high organic matter sand. Soil Sci. Soc. Am. Proc. 35:154-156, 1970.

  30. C. Cogger, J.M. Duxbury. Factors affecting phosphorus losses from cultivated organic soils. J. Environ. Qual. 13:111-114, 1984.

  31. C.V. Cole, S.R. Olsen, C.O. Scott. The nature of phosphate sorption by calcium carbonate. Soil Sci. Soc. Am. Proc. 17:352-356, 1953.

  32. R.A. Griffin, J.J. Jurinak. The interaction of phosphate with calcite. Soil Sci. Soc. Am. Proc. 37:847-850, 1973.

  33. M.J. Shen, C.I. Rich. Aluminum fixation in montmorillonite. Soil Sci. Soc. Am. Proc. 26:33-36, 1962.

  34. S.S. Shukla, J.K. Syers, J.D.H. Williams, D.E. Armstrong, R.F. Harris. Sorption of inorganic phosphorus by lake sediments. Soil Sci. Soc. Am. Proc. 35:244-249, 1971.

  35. P.S. Porter, C.A. Sanchez. The effect of soil properties on phosphorus sorption by Everglades Histosols. Soil Sci. 154:387-398, 1992.

  36. W.L. Lindsay, A.W. Frazier, H.F. Stephenson. Identification of reaction products from phosphate fertilizers in soils. Soil Sci. Soc. Am. Proc. 26:446-452, 1962.

  37. W.L. Lindsay. Chemical Equilibrium in Soil. New York: Wiley Interscience, 1979.

  38. G.L. Terman, D.R. Bouldin, J.R. Lehr. Calcium phosphate fertilizers: I. Availability to plants and solubility in soils varying in pH. Soil Sci. Soc. Am. Proc. 22:25-29, 1958.

  39. W.L. Lindsay, H.F. Stephenson. Nature of the reactions of monocalcium phosphate monohydrate in soils: II. Dissolution and precipitation reactions involving iron, aluminum, manganese and calcium. Soil Sci. Soc. Am. Proc. 26:446-452, 1959.

  40. G. Hambidge. Hunger Sign in Crops. Washington DC: American Society of Agronomy and The National Fertilizer Council, 1941.

  41. J.E. McMurtrey Jr, Visual symptoms of malnutrition in plants. In: H.B. Kitchen, ed. Diagnostic Techniques for Soils and Crops. Washington DC: American Potash Insititute, 1948.

  42. T. Wallace. The Diagnosis of Mineral Deficiencies in Plants by Visual Diagnosis. New York: Chemical Publishing Co Inc., 1961.

  43. F.T. Bingham. Phosphorus. In: H.D. Chapman, ed. Diagnostic Criteria for Plant and Soils. Division of Agricultural Sciences, University of California, 1966.


  44. W.T. Forsee Jr, R.V. Allison. Evidence of phosphorus interference in the assimilation of copper by citrus on the organic soils of the lower east coast of Florida. Soil Sci. Soc. Fla. Proc. 6:162-165, 1944.

  45. A. Scaife. Derivation of critical nutrient concentrations for growth rate from data from field experiments. Plant Soil 109:159-169, 1988.

  46. H.D. Chapman (ed.). Diagnostic Criteria for Plants and Soils. Berkeley, CA: Division of Agricultural Sciences, University of California, 1966.

  47. N.F. Childers (ed.). Temperate to Tropical Fruit Nutrition. New Brunswick, NJ: Rutgers-The State University, 1966.

  48. R.L. Westerman (ed.). Soil Testing and Plant Analysis. Madison, WI: Soil Science Society of America, 1990.

  49. B. Wolf. Diagnostic Techniques for Improving Crop Production. Binghampton, New York: The Hayworth Press Inc., 1996.

  50. G.W. Thomas, D.E. Peaslee. Testing soils for phosphorus. In: L.M. Walsh, J.D. Beaton, eds. Soil Testing and Plant Analysis. Madison, WI: Soil Sci. Soc. Am. Inc., 1973.

  51. E.J. Kamprath, M.E. Watson. Conventional soil and tissue tests for assessing the phosphorus status of soils. In: F.E. Khasawneh, E.C. Sample, E.J. Kamprath, eds. The Role of Phosphorus In Agriculture. American Society of Agronomy Inc. 677 South Segoe Road, Madison WI 53711, 1980.

  52. P.E. Fixen, J.H. Grove. In: R.L. Westerman, ed. Soil Testing and plant analysis. Soil Science Society of America Book Series 3:141-180, 1990.

  53. S. Kuo. Phosphorus. In: D.L. Spark, A.L. Page, P.A. Helmke, R.H. Loeppert, P.N. Soltanpour, M.A. Tabatabai, C.T. Johnston, M.E. Sumner, eds. Methods of Soil Analysis Part 3 Chemical Methods. Soil Science Society of America 5:869-920, 1996.

  54. S.C. Chang, M.L. Jackson. Fractionation of soil phosphorus. Soil Sci. 84:113-144, 1957.

  55. A. Mehlich. New extractant for soil test evaluation of phosphorus, potassium, magnesium, calcium, sodium, manganese, and zinc. Commun. Soil Sci. Plant Anal. 9:477-492, 1978.

  56. A. Mehlich. Mehlich 3 soil test extractant: a modification of the Mehlich 2 extractant. Commun. Soil Sci. Plant Anal. 15:1409-1416, 1984.

  57. E.A. Hanlon, G.V. Johnson. Bray/Kurtz, Mehlich III, AB/D, and ammonium acetate extractions of P, K, and Mg in four Oklahoma soils. Commun. Soil Sci. Plant Anal. 15:277-294, 1984.

  58. S.R. Olsen, C.V. Cole, F.S. Watanabe, L.A. Dean. Estimation of Available P in Soils by Extraction with NaHCO3. USDA Cir. 939. US Government Printing Office, Washington DC, 1954.

  59. P.N. Soltanpour, A.P. Schwab. A new soil test for the simultaneous extraction of macro and micro nutrients in alkaline soils. Commun. Soil Sci. Plant Anal. 8:195-207, 1977.

  60. P.N. Soltanpour, S. Workman. Modification of the NH4HCO3-DPTA soil tests to omit carbon black. Commun. Soil Sci. Plant Anal. 10:1411-1420, 1979.

  61. B.A. Ahmed, A. Islam. The use of sodium EDTA as an extractant for determining available phosphorus in soil. Geoderma 14:261-265, 1972.

  62. R.L. Fox, E.J. Kamprath. Phosphate sorption isotherms for evaluating the phosphate requirements of soils. Soil Sci. Soc. Am. Proc. 34:902-907, 1970.

  63. E.A. Hanlon, G. Hochmuth. Recent changes in phosphorus and potassium fertilizer recommendations for tomato, pepper, muskmelon, watermelon, and snapbean in Florida. Commun. Soil Sci. Plant Anal. 23:2651-2665, 1992.

  64. G. Hochmuth, P. Weingartner, C. Hutchinson, A. Tilton, D. Jesseman. Potato yield and tuber quality did not respond to phosphorus fertilization of soils testing high in phosphorus content. Hortech 12(3) 2002.

  65. G. Hochmuth, O. Carrujo, K. Shuler. Tomato yield and fruit size did not respond to P fertilization of a sandy soil testing very high in Mehlich-1 P. HortScience 34:653-656, 1999.

  66. R.K. Nishomoto, R.L. Fox, P.E. Parvin. Response of vegetable crops to phosphorus concentrations in soil solution. J. Am. Soc. Hort. Sci. 102:705-709, 1977.

  67. S. Itoh, S.A. Barber. Phosphorus uptake by six plant species as related to root hairs. Agron. J. 75:457-461, 1983.

  68. D.J. Greenwood, T.J. Cleaver, M.K. Turner, J. Hunt, K.B. Niendorf, S.M.H. Loquens. Comparison of the effects of phosphate fertilizer on the yield, phosphate content and quality of 22 different vegetable and agricultural crops. J. Agric. Sci. Camp. 95:457-469, 1980.

  69. D. Alt. Influence of P- and K- fertilization on yield of different vegetable species. J. Plant Nutr. 10:1429-1435, 1987.

  70. C.A. Sanchez. Soil Testing and Fertilizer Recommendations for Crop Production on Organic Soils in Florida. University of Florida Agricultural Experiment Station Bulletin 876, Gainesville, 1990.

  71. G.S.C. Buso, F.A. Bliss. Variability among lettuce cultivars grown at two levels of available phosphorus. Plant Soil 111:67-93, 1988.

  72. R.T. Nagata, C.A. Sanchez, F.J. Coale. Crisphead lettuce cultivar response to fertilizer phosphorus. J. Am. Soc. Hort. Sci. 117:721-724, 1992.

  73. C.A. Sanchez, N.M. El-Hout. Response of diverse lettuce types to fertilizer phosphorus. HortScience 30:528-531, 1995.

  74. N.J. Pearson, Z. Rengel. Mechanisms of plant resistance to nutrient deficiency stresses. In: A.S. Basra, R.K. Basra, eds. Mechanisms of Environmental Stress Resistance in Plants. Amsterdam, Netherlands: Harwood Academic Publishers, 1997, pp. 213-240.

  75. J. Lynch. The role of nutrient efficient crops in modern agriculture. In: Z. Rengel, ed. Nutrient Use in Crop Production. Binghamton, NY: The Haworth Press Inc., 1998, pp. 241-264.

  76. F.S. Watanabe, S.R. Olsen, R.E. Danielson. Phosphorus Availability as Related to Soil Moisture. Int. Congress Soil Sci. Trans. 7th, Madison, WI, III: 1960.

  77. F.N. Ponnamperuma. The chemistry of submerged soils. Adv. Agron. 24:29-96, 1972.

  78. I.C.R. Holford,W.H. Patrick Jr. Effect of reduction and pH changes on phosphate sorption and mobility in an acid soil. Soil Sci. Soc. Am. J. 43:292-297, 1979.

  79. P.E. Bacon, B.G. Davey. Nutrient availability under trickle irrigation: distribution of water and Bray No 1 phosphate. Soil Sci. Soc. Am. J. 46:981-987, 1982.

  80. S.S. Barber. Soil-plant interaction in the phosphorus nutrition of plants. In: Khasawneh, Sample, Kamprath, eds. The Role of Phosphorus in Agriculture. 1980.

  81. J.J. Hanway, R.A. Olson. Phosphate nutrition of corn, sorghum, soybeans, and small grains. In: Khasawneh, Sample, Kamprath, eds. The Role of Phosphorus in Agriculture. 1980.

  82. B.R. Gardner, J. Preston Jones. Effects of temperature on phosphate sorption isotherms and phosphate desorption. Commun. Soil Sci. Plant Anal. 4:83-93, 1973.

  83. C.D. Sutton. Effects of low temperature on phosphate nutrition of plants-a review. J. Sci. Food Agric. 20:1-3, 1969.

  84. O.G. Carter, D.J. Lathwell. Effect of temperature on orthophosphate absorption by excised corn roots. Plant Physiol. 42:1407-1412, 1967.


  85. B.B. Singh, J.P. Jones. Phosphorus sorption isotherm for evaluating phosphorus temperature requirements of lettuce at five temperature regimes. Plant Soil 46:31-44, 1977.

  86. J.C. Lingle, R.M. Davis. The influence of soil temperature and phosphorus fertilization on the growth and mineral absorption of tomato seedling. Proc. Am. Soc. Hortic. Sci. 73:312-322, 1959.

  87. S.J. Locascio, G.F. Warren, G.E. Wilcox. The effect of phosphorus placement on uptake of phosphorus and growth of direct seeded tomatoes. Proc. Am. Soc. Hortic. Sci. 76:503-514, 1960.

  88. O.A. Lorenz, K.B. Tyler, O.D. McCoy. Phosphate sources and rates for winter lettuce on a calcareous soil. Proc. Am. Soc. Hortic. Sci. 84:348-355, 1964.

  89. B.R. Gardner. Effects of soil P levels on yields of head lettuce. Agron. Abst. P 204, 1984.

  90. W.H. Wagganman. Phosphoric Acid, Phosphates, and Phosphatic Fertilizers. 2nd ed. New York: Hafner Publications Company, 1969.

  91. O.P. Engelstad, G.L. Teramn. Agronomic effectiveness of phosphate fertilizers. In: Khasawneh, Sample, Kamprath, eds. The Role of Phosphorus In Agriculture. 1980.

  92. A.C. Bennett, F. Adams. Calcium deficiency and ammonium toxicity versus separate causal factors of (NH4)2HPO4-injury to seedling. Soil Sci. Soc. Am. Proc. 34:255-259, 1973.

  93. I.G. Burns. Effects of interruptions in N, P, or K supply on the growth and development of lettuce. J. Plant Nutr. 10:1571-1578, 1987.

  94. D.L. Grunes, H.R. Haise, L.O. Fine. Proportional uptake of soil and fertilizer phosphorus by plants as affected by nitrogen fertilization: field experiments with sugarbeets and potatoes. Soil Sci. Soc. Am. Proc. 22:49-52, 1958.

  95. J.C. Lingle, J.R. Wright. Fertilizer Experiments with Cantaloupes. California Agricultural Exp. Bull. 807, Berkeley, 1964.

  96. C.A. Sanchez, V.L. Guzman, R.T. Nagata. Evaluation of sidedress fertilization for correcting nutritional deficits in crisphead lettuce on Histosols. Proc. Fla. State Hortic. Soc. 103:110-113, 1990.

  97. R.E. Lucas, M.T. Vittum. Fertilizer placement for vegetables. In: G.E. Richards, ed. Phosphorus Fertilization-Principles and Practices of Band Application. St Louis, MO: Olin Corp., 1976.

  98. G.W. Randall, R.G. Hoeft. Placement methods for improved efficiency of P and K fertilizers: a review. J. Prod. Agri. 1:70-78, 1988.

  99. I. Anghinoni, S.A. Barber. Phosphorus influx and growth characteristics of corn roots as influenced by phosphorus supply. J. Agron. 72:685-688, 1980.

  100. I. Anghinoni, S.A. Barber. Predicting the most efficient phosphorus placement for corn. Soil Sci. Soc. Am. J. 44:1016-1020, 1980.

  101. D.M. Sleight, D.H. Sander, G.A. Peterson. Effect of fertilizer phosphorus placement on the availability of phosphorus. Soil Sci. Soc. Am. J. 48:336-340, 1984.

  102. C.A. Sanchez, S. Swanson, P.S. Porter. Banding P to improve fertilizer use efficiency in lettuce. J. Am. Soc. Hortic. Sci. 115:581-584, 1990.

  103. C.A. Sanchez, P.S. Porter, M.F. Ulloa. Relative efficiency of broadcast and banded phosphorus for sweetcorn produced on Histosols. Soil Sci. Soc. Am. J. 55:871-875, 1991.

  104. L. Espinoza, C.A. Sanchez, T.J. Schueneman. Celery yield responds to phosphorus rate but not placement on Histosols. HortScience 28:1168-1170, 1993.

  105. S.A. Barber. Relation of fertilizer placement to nutrient uptake and crop yield. I. Interaction of row phosphorus and the soil level of phosphorus. Agron. J. 50:535-539, 1958.

  106. L.F. Welch, D.L. Mulvaney, L.V. Boone, G.E. McKibben, J.W. Pendleton. Relative efficiency of broadcast versus banded phosphorus for corn. Agron. J. 58:283-287, 1966.

  107. G.A. Peterson, D.H. Sanders, P.H. Grabouski, M.L. Hooker. A new look at row and broadcast phosphate fertilizer recommendations for winter wheat. Agron. J. 73:13-17, 1981.

  108. O. Silberstein, S.H. Wittwer. Foliar application of phosphatic fertilizers to vegetable crops. Proc. Am. Soc. Hortic. Sci. 58:179-180, 1951.

  109. D. Barel, C.A. Black. Foliar application of P. I. Screening of various inorganic and organic P compounds. Agron. J. 71:15-21, 1979.

  110. D. Barel, C.A. Black. Foliar application of P. II. Yield response of crin and soybeans sprayed with various condensed phosphates and P-N compounds in greenhouse and field experiments. Agron. J. 71:21-24, 1979.

  111. F.G. Teubner, M.J. Bukovac, S.H. Wittwer, B.K. Guar. The utilization of foliar-applied radiophosphorus by several vegetable crops and tree fruits under field conditions. Michigan Agric. Exp. Stn. Quar. Bull. 44:455-465, 1962.

  112. A.P. Upadhyay, M.R. Deshmukh, R.P. Rajput, S.C. Deshmukh. Effect of sources, levels and methods of phosphorus application on plant productivity and yield of soybean. Indian J. Agron. 33:14-18, 1988.

  113. R. Garcia, J.J. Hanway. Foliar fertilization of soybeans during the seed-filling period. Agron. J. 68:653-657, 1976.

  114. W.K. Robertson, K. Hinson, L.C. Hammond. Foliar fertilization of soybeans (Glycine max L) Merr in Florida. Soil Crop Sci. Soc. Fla. Proc. 36:77-79, 1977.

  115. M.B. Parker, F.C. Boswell. Foliage injury, nutrient uptake, and yield of soybeans as influenced by foliar fertilization. Agron. J. 72:110-113, 1980.

  116. H.J. Harder, R.E. Carlson, R.H. Shaw. Corn grain yield and nutrient response to foliar fertilization applied during grain fill. Agron. J. 74:106-110, 1982.

  117. H.J. Harder, R.E. Carlson, R.H. Shaw. Leaf photosynthetic response to foliar fertilizer applied to corn during grain fill. Agron. J. 74:759-761, 1982.

  118. G.D. Batten, I.F. Wardlaw. Senesence of the flag leaf and grain yield following late foliar and root applications of phosphate on plants of differing phosphate status. J. Plant Nutr. 10:735-748, 1987.

  119. T.J. Logan, E.O. McLean. Effects of phosphorus application rate, soil properties and leaching mode on P movement in soil columns. Soil Sci. Soc. Am. Proc. 37:371-374, 1973.

  120. T.J. Logan, E.O. McLean. Nature of phosphorus retention and absorption with depth in soil columns. Soil Sci. Soc. Am. Proc. 37:351-355, 1973.

  121. G.W. Hergert, J.O. Reuss. Sprinkler application of P and Zn fertilizer. Agron. J. 68:5-8, 1976.

  122. D.A. Lauer. Vertical distribution in soil of sprinkler-applied phosphorus. Soil Sci. Soc. Am. J. 52:862-868, 1988.

  123. C.O. Stanberry, C.D. Converse, H.R. Haise, A.J. Kelly. Effect of moisture and phosphate variables on alfalfa hay production on the Yuma mesa. Soil Sci. Soc. Am. Proc. 19:303-310, 1955.

  124. C.O. Stanberry, H.A. Schreiber, L.R. Cooper, S.D. Mitchell. Vertical Movement of Phosphorus in Some Calcareous Soils of Arizona. Unpublished data. University of Arizona Agric. Exp. Stn. Tech. Paper, 1965.

  125. R.S. Rauschkolb, D.E. Rolston, R.J. Miller, A.B. Carlton, R.G. Burau. Phosphorus fertilization with drip irrigation. Soil Sci. Soc. Am. J. 40:68-72, 1979.

  126. M.K. O'Neill, B.R. Gardner, R.L. Roth. Orthophosphoric acid as a phosphorus fertilizer in trickle irrigation. Soil Sci. Soc. Am. J. 43:283-286, 1979.

  127. B. Bar-Yosef, B. Sagiv, T. Markovitch, I. Levkovitch. Phosphorus placement effects on sweet corn growth, uptake, and yield. Proceedings of Dahlia Greidinger International Symposium on Fertigation. Haifa, Israel, 1995, pp. 141-154.

  128. O.A. Carrijo, G. Hochmuth. Tomato responses to preplant incorporated or fertigated phosphorus on soils varying in Mehlich-1 extractable phosphorus. HortScience 35:67-72, 2000.

  129. R.L. Mikklelsen. Phosphorus fertilization through drip irrigation. J. Prod. Agric. 2:279-286, 1989.

  130. A.J. Dow. Critical Nutrient Ranges in Northwest Crops. Western Reg. Publ. 43 Washington State Univ. Irrigated Agric. Res. Ext. Ctr. Prosser, WA, 1980.

  131. R.C. Ward, D.A. Whitney, D.G. Westfall. Plant analysis as an aid in fertilizing small grains. In: L.M. Walsh, J.D. Beaton, eds. Soil Testing and Plant Analysis. Madison, WI: SSSA, 1973, pp. 329-348.

  132. R.H. Howeler. The mineral nutrition and fertilization of cassava. In: Cassava Production Course. Cali, Colombia: CIAT, 1978, pp. 247-292.

  133. D. Satinder, R.D. Kaushik, V.K. Gupta. Relationship between P and Mn in chickpea (Cicer arietinum L). Plant Soil 72:85-90, 1983.

  134. J.B. Jones. Plant Analysis Handbook for Georgia. Univ. Georgia Coll. Agric. Bull. 735, 1974.

  135. G.W. Rehm, R.C. Sorensen, R.A. Wiese. Application of phosphorus, potassium and zinc to corn grown for grain or silage: nutrient concentration and uptake. Soil Sci. Soc. Am. J. 47:697-700, 1983.

  136. S.W. Melsted, H.L. Motto, T.R. Peck. Critical plant nutrient composition values useful in interpreting plant analysis data. Agron. J. 61:7-20, 1969.

  137. L.C. Dumenil. Nitrogen and phosphorus composition of corn leaves and corn yields in relation to critical levels and nutrient balance. Soil Sci. Soc. Am. Proc. 25:295-298, 1961.

  138. J.J. Hanway. Corn growth and composition in relation to soil fertility: III. Percentages of N, P and K in different plant parts in relation to stage of growth. Agron. J. 54:222-229, 1962.

  139. R.D. Powell, J.R. Webb. Effect of high rates of fertilizer N, P, and K on corn (Zea mays L), leaf nutrient concentrations. Commun. Soil Sci. Plant Anal. 5:93-104, 1974.

  140. E.H. Tyner. The relation of corn yields to leaf nitrogen, phosphorus, and potassium content. Soil Sci. Soc. Am. Proc. 11:317-323, 1946.

  141. W.F. Bennett, G. Stanford, L. Dumenil. Nitrogen, phosphorus and potassium content of the corn leaf and grain related to nitrogen fertilization and yield. Soil Sci. Soc. Am. Proc. 17:252-258, 1953.

  142. J.B. Jones. Interpretation of plant analysis for several agronomic crops. In: G.W. Hardy, ed. Soil Testing and Plant Analysis: Part 2. Madison, WI: Soil Sci. Soc. Am. Special Public No. 2. 1967, pp. 49-85.

  143. P.W. Neubert, W. Wrazidlo, N.P. Vielemeyer, I. Hundt, F. Gullmick, W. Bergmann. Tabellen Zur planzenanalyze-Erste orientierende Ubersicht. Berlin: Inst fur Planzenernahrung Jena, 1969.

  144. C.R. Escano, C.A. Jones, G. Uehara. Nutrient diagnosis in corn grown on hydric dystrandepts: I. Optimum tissue concentrations. Soil Sci. Soc. Am. J. 45:1135-1139, 1981a.

  145. J.P. Jones, J.A. Benson. Phosphate sorption isotherms for fertilizer P needs of sweet corn (Zea mays) grown on a high phosphorus fixing soil. Commun. Soil Sci. Plant Anal. 6:465-477, 1975.

  146. W.E. Sabbe, A.J. MacKenzie. Plant analysis as an aid to cotton fertilization. In: Soil Testing and Plant Analysis. Madison, WI: SSSA, 1973, pp. 299-313.

  147. R. Maples, J.L. Keogh. Phosphorus Fertilization Experiments with Cotton on Delta Soils of Arkansas. Arkansas Agric. Exp. Stn. Bull. 781, 1973.

  148. D.M. Bassett, A.J. MacKenzie. Plant Analysis as a Guide to Cotton Fertilization. University of California Bulletin 1879, pp. 6-17, 1978.

  149. A. Kashirad, A. Bassiri, M. Kheradnam. Responses of cowpea to applications of P and Fe in calcareous soils. Agron. J. 70:67-70, 1978.

  150. C.L. Godfrey, F.L. Fisher, M.J. Norris. A comparison of ammonium metaphosphate and ammonium orthophosphate with superphosphate on the yield and chemical composition of crops grown under field conditions. Soil Sci. Soc. Am. Proc. 23:43-46, 1959.

  151. R.F. Bishop, G.G. Smeltzer, C.R. MacEachern. Effect of nitrogen, phosphorus and potassium on yields, protein contents and nutrient levels in soybean, field peas and faba beans. Commun. Soil Sci. Plant Anal. 7:387-404, 1976.

  152. N.K. Fageria. Effect of phosphatic fertilization on growth and mineral composition of pea plants (Pisum sativum L). Agrochimica 21:75-78, 1977.

  153. J.L. Haddock, D.C. Linton. Yield and phosphorus content of canning peas as affected by fertilization, irrigation regime and sodium bicarbonate-soluble soil phosphorus. Soil Sci. Soc. Am. Proc. 21:167-171, 1957.

  154. D.C. MacKay, J.S. Leefe. Optimum leaf levels of nitrogen, phosphorus and potassium in sweet corn and snap beans. Can. J. Plant Sci. 42:238-246, 1962.

  155. J.T. Moraghan. Differential responses of five species to phosphorus and zinc fertilizers. Commun. Soil Sci. Plant Anal. 15:437-447, 1984.

  156. H.G. Small, A.J. Ohlrogge. Plant analysis as an aid in fertilizing soybeans and peanuts. In: L.M. Walsh, J.D. Beaton, eds. Soil Testing and Plant Analysis. Madison, WI: SSSA, 1973, pp. 315-327.

  157. R. Nichols. Studies on the major-element deficiencies of the pigeon pea (Cajanus cajan) in sand culture. II. The effects of major-element deficiencies on nodulation, growth and mineral composition. Plant Soil 22:12-126, 1965.

  158. A.R. Sheldrake, A Narayanan. Growth, development and nutrient uptake of pigeon peas (Cajanus cajan). J. Agric. Sci. 92:513-526, 1979.

  159. N.K. Fageria. Critical P, K, Ca and Mg contents in the tops of rice and peanut plants. Plant Soil 45:421-431, 1976.

  160. L.R. Hossner, J.A. Freeouf, B.L. Folsom. Solution phosphorus concentration and growth of rice (Oryza sativa L.) in flooded soils. Soil Sci. Soc. Am. Proc. 37:405-408, 1973.

  161. D.S. Mickkelsen, R.R. Hunziker. A plant analysis survey of California rice. Agrichem. Age 14:8-22, 1971.

  162. R.B. Lockman. Mineral composition of grain sorghum plant samples. III. Suggested nutrient sufficiency limits at various stages of growth. Commun. Soil Sci. Plant Anal. 3:295-303, 1972.

  163. D. Whitney. A Soil and Plant Analysis for Corn and Sorghum Survey. Kansas State Univ. Mimeo 3a-162-1-300, 1970.

  164. R.J. Miller, J.T. Pesck, J.J. Hanway. Relationships between soybean yield and concentrations of phosphorus and potassium in plant parts. Agron. J. 53:393-396, 1961.

  165. W.E. Sabbe, J.L. Keogh, R. Maples, L.H. Hileman. Nutrient analysis of Arkansas cotton and soybean leaf tissue. Arkansas Farm Res. 21:2, 1972.

  166. K.M. Sipitanos, A Ulrich. Phosphorus nutrition of sugarbeet seedlings. J. Am. Soc. Sugar Beet Technol. 15:332-346, 1969.

  167. A. Ulrich. Plant and analysis as a guide to the nutrition of the sugar beets in California. Proceedings of the 5th General Meeting of American Society of Sugar Beet Technolnogy, 1948, pp. 364-377.

  168. P. Halais. The detection of N P K deficiency trends in sugarcane crops means of foliar diagnosis run from year to year on a follow-up basis. Proceedings of 11th International Society of Sugar Cane Technology, 1962, pp. 214-221.

  169. E. Malavolta, F.P. Gomes. Foliar diagnosis in Brazil. In:W. Reuther, ed. Plant Analysis and Fertilizer Problems. Washington DC: Am. Inst. Biol. Sci., 1961, pp. 180-189.

  170. G. Samuels. The influence of the age of sugar cane on the leaf nutrient (N-P-K) content. Proc. Int. Soc. Sugar Cane Technol. 10:508-514, 1959.

  171. W.R. Schmehl, R.P. Humbert. Nutrient deficiencies in sugar crops. In: H.W. Sprague, ed. Hunger Signs in Crops. A Symposium. David McKay Company, New York, 1964, pp. 415-450.

  172. W.W. Garner. In: The Production of Tobacco. 1st ed. New York: Blakiston Co, 1951.

  173. C.O. Plank. Plant Analysis Handbook for Georgia. Athens: Coop. Ext. Serv. University of Georgia, 1988.

  174. K.A. Kelling, J.E. Matocha. Plant analysis as an aid in the fertilization of forage crops. In: Soil Testing and Plant Analysis. Madison, WI: SSSA Book Series: 3. 1990, pp. 603-636.

  175. W.E. Martin, J.E. Matocha. Plant analysis as an aid in the fertilization of forage crops. In: Soil Testing and Plant Analysis. Revised edition. Madison, WI, 1973, pp. 394-423.

  176. CIAT. Tropical Pastures Program Report 1981. CIAT Series 02SETP(1)82. pp. 167-191, 1982.

  177. A.L. Kenworthy, L. Martin. Mineral content of important fruit plants. XXIV. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. New Brunswick, NJ: Rutgers-The State University, 1966, pp. 813-870.

  178. M.N. Westwood. Temperate-Zone Pomology. W.H. Freeman and Co., San Francisco, 1978.

  179. C. Bould. Leaf analysis of deciduous fruits. XXI. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. New Brunswick, NJ: Rutgers-The State University, 1966, pp. 651-684.

  180. A.L. Kenworthy. Leaf analysis as an aid in fertilizing orchards. In: L.M. Walsh, J.D. Benton, eds. Soil Testing and Plant Analysis. Revised edition. Madison, WI: SSSA. 1973.

  181. M. Faust. Physiology of Temperate Zone Fruit Trees. John Wiley and Sons, New York, 1989.

  182. T.W. Embleton,W.W. Jones. Avocado and mango. II. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. New Brunswick, NJ: Rutgers-The State University, 1966, pp. 51-76.

  183. S.R. Freiberg. Banana nutrition. III. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. New Brunswick, NJ: Rutgers-The State University, 1966, pp. 77-100.

  184. J.C. Cain, P. Eck. Blueberry and cranberry. IV. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. New Brunswick, NJ: Rutgers-The State University, 1966, pp. 101-129.

  185. C.C. Doughty, E.B. Adams, L.W. Martin. High Bush Blueberry Production in Washington and Oregon Cooperative Extension, Washington and Oregon State Universities and University of Idaho Bull. No. PNW215, 1981.

  186. D.B. Murray. Cacao nutrition. IX. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. New Brunswick, NJ: Rutgers-The State University, 1966, pp. 229-251.

  187. T.L. Reghetti, K.L. Wilder, G.A. Cummings. Plant Analysis as an Aid in Fertilizing Orchards. 3rd ed. Madison, WI: SSSA Book Series 3, 1990, pp. 563-602.

  188. P. Smith. Citrus nutrition. VII. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. Rutgers-The State University, 1966, pp. 174-207.

  189. T.W. Embleton,W.W. Jones, C. Pallares, R.G. Platt. Effect of fertilization of citrus on fruit quality and ground water nitrate-pollution potential. Proc. Int. Soc. Citriculture, pp. 280-285, 1978.

  190. B. Ljones. Bush fruits nutrition. V. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. Rutgers-The State University. New Brunswick, NJ, 1966, pp. 130-157.

  191. L. M?ller. Coffee nutrition. XXII. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. New Brunswick, NJ: Rutgers-The State University. New Brunswick, NJ, 1966, pp. 685-776.

  192. J.A. Cook. Grape nutrition. XXIII. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. New Brunswick, NJ: Rutgers-The State University, 1966, pp. 777-812.

  193. T.W. Young, R.C.J. Koo. Increasing yield of Parwin and Kent mangos on Lakewood sand by increased nitrogen and potassium fertilization. Proc. Fla. Sta. Hortic. Soc. 87:380-384, 1974.

  194. D. Boynton, G.H. Oberly. Pear nutrition. XIII. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. New Brunswick, NJ: Rutgers-The State University, 1966, pp. 489-503.

  195. K. Uriu, J.C. Crane. Mineral element changes in pistachio leaves. J. Am. Soc. Hortic. Sci. 102:155-158, 1977.

  196. N.R. Benson, R.C. Lindner, R.M. Bullock. Plum, prune and apricot. XIV. In: N.F. Childers, ed. Temperate to Tropical Fruit Nutrition. New Brunswick, NJ: Rutgers-The State University, 1966, pp. 504-517.

  197. A. Ulrich, M.A.E. Mostafa, W.W. Allen. Strawberry Deficiency Symptoms: A Visual and Plant Analysis Guide to Fertilization. University of California Division of Agricultural Science Publication No. 4098, 1980.

  198. J.W. Mastarlerz. The Greenhouse Environment. New York: Wiley, 1977, pp. 510-516.

  199. G.W. Winsor, M.I.E. Long, B. Hart. The nutrition of the glasshouse carnation. J. Hortic. Sci. 45:401-413, 1970.

  200. O.R. Lunt, A.M. Kofranek, J.J. Oertli. Some critical nutrient levels in Chyrsanthemum morifolium cv Good News. Plant Anal. Fert. Problems 4:398-413, 1964.

  201. J.N. Joiner, W.E. Waters. Influence of cultural conditions on the chemical composition of six tropical foliage plants. Proc. Trop. Reg. Am. Soc. Hortic. Sci. 14:254-267, 1969.

  202. G.H. Gilliam, C.E. Evans, R.L. Schumack, C.O. Plank. Foliar sampling of Boston fern. J. Am. Soc. Hortic. Sci. 108(1):90-93, 1983.

  203. Anon. Mineral Analysis Interpretation Key for Ornamental Plants (Manual). California: Soil and Plant Laboratory Inc., 1974.

  204. M. Prasad, R.E. Widme, R.R. Marshall. Soil testing of horticultural substrates for cyclamen and poinsettia. Commun. Soil Sci. Plant Anal. 14(7):553-573, 1983.

  205. J. Johanson. Effects of nutrient levels on growth, flowering and leaf nutrient content of greenhouse roses. Acta Agric. Scand. 28:363-386, 1963.

  206. R.T. Poole, C.A. Conover, J.N. Joiner. Chemical composition of good quality foliage plants. Proc. Fla. Sta. Hortic. Soc. 89:307-308, 1976.

  207. O.A. Lorenz, K.B. Tyler. Plant Tissue Analysis of Vegetable Crops; Soil and Plant Tissue Testing in California. H. Reisenauer, ed. University of California Bulletin No. 1879. pp. 22-23, 1978.

  208. N.H. Peck, D.L. Grunes, R.M. Welch, G.E. MacDonald. Nutritional quality of vegetable crops as affected by phosphorus and zinc fertilizers. Agron. J. 74:583-585, 1982.

  209. M.C. Geraldson, G.R. Klacan, O.A. Lorenz. Plant analysis as an aid in fertilizing vegetable crops. In: L.M. Walsh, J.D. Beaton, eds. Soil Testing and Plant Analysis. Madison, WI: Am. Soc. Agron., 1973, pp. 365-579.

  210. C.A. Sanchez, H.W. Burdine, V.L. Guzman. Soil-testing and plant analysis as guides for the fertilization of celery on Histosols. Soil Crop Sci. Soc. Fla. Proc. 29:69-72, 1989.

  211. L. Espinoza, C.A. Sanchez, T.J. Schueneman. Celery yield responds to phosphorus rate but not phosphorus placement on Histosols. HortScience 28:1168-1170, 1993.

  212. H.W. Burdine. Some Winter Grown Leafy Crop Responses to Varying Levels of Nitrogen Phosphorus, and Potassium On Everglades Organic Soil. Belle Glade AREC Research Report EV-1976-5, April 1976.

  213. C.A. Sanchez, H.W. Burdine. Soil testing and plant analysis as guides for the fertilization of Escarole and Endive on Histosols. Soil Crop Sci. Soc. Fla. Proc. 48:37-40, 1989.

  214. W.L. Berry, D.T. Krizek, D.P. Ormord, J.C. McFarlane, R.W. Langhans, T.W. Tibbits. Variation in elemental content of lettuce grown under baseline conditions in five controlled-environment facilities. J. Am. Soc. Hortic. Sci. 106:661-666, 1981.

  215. C.A. Sanchez, H.W. Burdine, V.L. Guzman. Yield, quality, and leaf nutrient composition of crisphead lettuce as affected by N, P, and K on Histosols. Vegetable Section. Proc. Fla. State Hortic. Soc. 101:346-350, 1988.

  216. R.B. Beverly. Nutritional survey of the Everglades vegetable industry. Proc. Fla. State Hortic. Soc. 97:201-205, 1984.

  217. C.A. Sanchez, G.H. Snyder, H.W. Burdine, C.B. Hall. DRIS evaluation of the nutritional status of crisphead lettuce. HortScience 26:274-276, 1991.

  218. F.W. Zink . Growth and nutrient absorption of green bunching onions. Proc. Am. Soc. Hortic. Sci. 180:430-435, 1962.

  219. S. Roberts, A.I. Dow. Critical nutrient ranges for petiole phosphorous levels of sprinkler-irrigated Russet Burbank potatoes. Agron. J. 74:583-585, 1982.

  220. C.A. Sanchez, M. Lockhart, P.S. Porter. Response of radish to phosphorus and potassium fertilization of Histosols. HortScience 26:30-32, 1991.

  221. C.A. Sanchez, H.W. Burdine, F.S. Martin. Yield and quality responses of three sweet corn hybrids as affected by fertilizer phosphorus. J. Fert. Issues 6:17-24, 1989a.

  222. C.A. Sanchez, P.S. Porter, M.F. Ulloa. Relative efficiency of broadcast and banded phosphorus for sweet corn produced on Histosols. Soil Sci. Soc. Am. J. 55:871-875, 1991.

  223. R.T. Besford. Uptake and distribution of phosphorous in tomato plants. Plant Soil 51:331-340, 1979.

  224. A. Mehlich. Determination of P, Ca, Mg, K, Na and NH4+. North Carolina Soil Testing Div. Mimeo, Raleigh, 1953.

  225. W.T. Forsee Jr. Development and evaluation of methods for the determination of phosphorus in Everglades peat under various conditions of treatment. Soil Sci. Soc. Fla. Proc. 4:50-54, 1942.

  226. G. Hochmuth, E. Hanlon. IFAS Standarized Fertilization Recommendations for Vegetable Crops. Fla. Coop. Ext. Serv. Circ. 1152, 1995.