Abstract
The chemistry and significance of soil organic phosphate, which often accounts for a high proportion of the total phosphate, has been the subject of extensive investigation for well over half a century, and detailed reviews have at intervals summarized the advances achieved (e.g., BLACK and GORING [1953], ULRICH and BENZLER [1955]).
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References
Adams, A. P., W. V. Bartholomew, and F. E. Clark, 1954. Measurement of nucleic acid components in soil. Soil Sci. Soc. Am. Proc. 18:40.
Anderson, C. A., 1963. Quantitative chromatographic separation of total organic phosphorus from soil extracts. Dissertation Abstract. 23:3053.
Anderson, G., 1956. The identification and estimation of soil inositol phosphates. J. Sci. Food Agr. 7:437.
Anderson, G., 1960. Factors affecting the estimation of phosphate esters in soil. J. Sci. Food Agr. 11:497.
Anderson, G., 1961. A partial fractionation of alkali-soluble soil organic phosphate. J. Soil Sci. 12:276.
Anderson, G., 1963. Effect of iron/phosphorus ratio and acid concentration on the precipitation of ferric inositol hexaphosphate. J. Sci. Food Agr. 14:352.
Anderson, G., 1964. Investigations on the analysis of inositol hexaphosphate in soils. Trans. Intern. Congr. Soil Sci., 8th, Bucharest, 4:563.
Anderson, G., 1970. The isolation of nucleoside diphosphates from alkaline extracts of soil. J. Soil Sci. 21:96.
Anderson, G., and E. Z. Arlidge, 1962. The adsorption of inositol phosphates and glycerophosphate by soil clays, clay minerals and hydrated sesquioxides in acid media. J. Soil Sci. 13:216.
Anderson, G., and R. J. Hance, 1963. Investigation of an organic phosphorus component of fulvic acid. Plant Soil 19:296.
Angyal, S. J., and L. Anderson, 1959. The cyclitols. In Advances in Carbohydrate Chemistry, Vol. 14, New York:Academic Press.
Arnold, P. W., 1956. Paper ionophoresis of inositol phosphates, with a note on the acid hydrolysates of phytic acid. Biochim. Biophys. Acta 19:552.
Aso, K., 1905. On organic compounds of phosphoric acid in the soil. Tokyo Imp. Univ. Coll. Agr., Bull. 6, 277.
Aubert, J. P., and G. Milhaud, 1955. Étude du métabolisme de la levure de boulangerie à l’aide de glucose radioactif. Compt. Rend. Acad. Sci. (Paris) 240:1943.
Auten, J. T., 1923. Organic phosphorus of soils. Soil Sci. 16:281.
Bamann, E., H. Trapmann, and A. Schuegraf, 1955. Metallkatalytische Spaltung von Phospho- proteiden. Chem. Ber. 88:1726.
Barrow, N. J., 1961. Phosphorus in soil organic matter. Soils Fert. 24:169.
Bartholomew, W. V., and C. A. I. Goring, 1948. Microbial products and soil organic matter. I. Some characteristics of the organic phosphorus of microorganisms. Soil Sci. Soc. Am. Proc. 13:238.
Bieleski, R. L., and R. E. Young, 1963. Extraction and separation of phosphate esters from plant tissues. Anal. Biochem. 6:54.
Birch, H. F., 1961. Phosphorus transformations during plant decomposition. Plant Soil 15:347.
Birch, H. F., and M. T. Friend, 1961. Resistance of humus to decomposition. Nature 191:731.
Black, C. A., and C. A. I. Goring, 1953. Organic phosphorus in soils. Agronomy 4:123.
Bloor, W. R., 1925. Biochemistry of the fats. Chem. Rev. 2:243.
Boswall, G. W., and W. A. DeLong, 1959. The use of 8-hydroxyquinoline (oxine) in the extraction of soil organic phosphorus. Can. J. Soil Sci. 39:20.
Bower, C. A., 1945. Separation and identification of phytin and its derivatives from soils. Soil Sci. 59:277.
Bower, C. A., 1949. Studies on the forms and availability of soil organic phosphorus. Iowa Agr. Exp. Sta. Res., Bull. 362.
Bowman, B. T., R. L. Thomas, and D. E. Elrick, 1967. The movement of phytic acid in soil cores. Soil Sci. Soc. Am. Proc. 31:477.
Bromfield, S. M., 1961. Sheep faeces in relation to the phosphorus cycle under pastures. Austral. J. Agr. Res. 12:111.
Bromfield, S. M., and O. L. Jones, 1970. The effect of sheep on the recycling of phosphorus in hayed-off pastures. Austral. J. Agr. Res. 21:699.
Caldwell, A. G., and C. A. Black, 1958a. Inositol hexaphosphate. 1. Quantitative determination in extracts of soils and manures. Soil Sci. Soc. Am. Proc. 22:290.
Caldwell, A. G., and C. A. Black, 1958b. Inositol hexaphosphate. 2. Synthesis by soil microorganisms. Soil Sci. Soc. Am. Proc. 22:293.
Caldwell, A. G., and C. A. Black, 1958c. Inositol hexaphosphate. 3. Content in soils. Soil Sci. Soc. Am. Proc. 22:296.
Casida, L. E., 1959. Phosphatase activity of some common soil fungi. Soil Sci. 87:305. Chang, S. C., 1939. The transformation of phosphorus during the decomposition of plant materials. Soil Sci. 48:85.
Casida, L. E., 1940. Assimilation of phosphorus by a mixed soil population and by pure cultures of soil fungi. Soil Sci. 49:197.
Chargaff, E., and J. N. Davidson, 1955. The nucleic acids. New York:Academic Press.
Cooper, R., 1959. Bacterial fertilizers in the Soviet Union. Soils Fert. 22:327.
Cosgrove, D. J., 1962. Forms of inositol hexaphosphate in soils. Nature 194:1265.
Cosgrove, D. J., 1963. The chemical nature of soil organic phosphorus. 1. Inositol phosphates. Austral. J. Soil Res. 1:203.
Cosgrove, D. J., 1964. An examination of some possible sources of soil inositol phosphates. Plant Soil 21:137.
Cosgrove, D. J., 1966. Detection of isomers of phytic acid in some Scottish and Californian soils. Soil Sci. 102:42.
Cosgrove, D. J., 1969. The chemical nature of soil organic phosphorus. 2. Characterization of the supposed DL-c/wro-inositol hexaphosphate component of soil phytate as D-c/f/ro-inositol hexaphosphate. Soil Biol. Biochem. 1:325.
Cosgrove, D. J., G. C. J. Irving, and S. M. Bromfield, 1970. Inositol phosphate phosphatases of microbiological origin. The isolation of soil bacteria having inositol phosphate phosphatase activity. AustraL J. Biol. Sci. 23:339.
Cosgrove, D. J., and M. E. Tate, 1963. Occurrence of neo-inositol hexaphosphate in soil. Nature 200:568.
Courtois, J., 1951. Les esters phosphoriques de l’inositol. Bull. Soc. Chim. Biol. 33:1075.
Damsgaard-Sorensen, P., 1947. Studier over Jordens Fosforsyreindhold. 4. Det Organisk Bundne Fosfor. Tidsskr. Planteavl. 50, 653 (1946). From Soils Fertil. 10, 131 (1947).
Damsgaard-Sorensen, P., 1947. Studier over Jordens Fosforsyreindhold. 4. Det Organisk Bundne Fosfor. Tidsskr. Planteavl. 50, 653 (1946). From Soils Fertil. 10, 131 (1947).
Dean, L. A., 1938. An attempted fractionation of the soil phosphorus. J. Agr. Sci. 28:234.
Desjobert, A., and P. Fleurent, 1954. Influence de la réaction du milieu sur l’hydrolyse chimique de l’inositolhexaphosphate. Considérations sur la constitution de ce dérivé. Bull. Soc. Chim. Biol. 36:475.
Desjobert, A., and F. Petek, 1956. Chromatographic sur papier des esters phosphoriques de l’inositol. Application a l’etude de la dégradation hydrolytique de l’inositolhexaphosphate. Bull. Soc. Chim. Biol. 38:871.
DeTurk, E. E., 1938. Changes in the soil of the morrow plots which have accompanied long-continued cropping. Soil Sci. Soc. Am. Proc. 3. 83.
Dormaar, J. F., 1964. Evaluation of methods for determination of total organic phosphorus in chernozemic soils of Southern Alberta. Can. J. Soil Sci. 44:265.
Dormaar, J. F., 1967. Distribution of inositol phosphates in some chernozemic soils of Southern Alberta. Soil Sci. 104:17.
Dormaar, J. F., 1970. Phospholipids in chernozemic soils of Southern Alberta. Soil Sci. 110:136.
Dormaar, J. F., and G. R. Webster, 1963. Determination of total organic phosphorus in soils by extraction methods. Can. J. Soil. Sci. 43:35.
Dormaar, J. F., and G. R. Webster, 1964. Losses inherent in ignition procedures for determining total organic phosphorus. Can. J. Soil Sci. 44:1.
Doughty, J. L., 1935. Phosphate fixation in soils, particularly as influenced by organic matter. Soil Sci. 40:191.
Drobniková, V., 1961. Factors influencing the determination of phosphatases in soil. Folia Microbiol. (Prague) 6:260.
Dyer, W. J., and C. L. Wrenshall, 1941a. Organic phosphorus in soils. 1. The extraction and separation of organic phosphorus compounds from soil. Soil Sci. 51:159.
Dyer, W. J., and C. L. Wrenshall, 1941b. Organic phosphorus in soils. 3. The decomposition of some organic phosphorus compounds in soil cultures. Soil Sci. 51:323.
Dyer, W. J., and C. L. Wrenshall, and G. R. Smith, 1940. The isolation of phytin from soil. Science 91:319.
Estermann, E. F., and A. D. McLaren, 1961. Contribution of rhizoplane organisms to the total capacity of plants to utilize organic nutrients. Plant Soil 15:243.
Flaig, W., and R. Kaul, 1955. Zur Aufnahme der Phosphorsaure aus Nucleinsaure durch die Pflanze. Phosphorsaure 15:208.
Flaig, W., G. Schmid, E. Wagner, and H. Keppell, 1960. Die Aufnahme von Phosphor aus Inosithexa-phosphat. Landw. Forsch. Sonderh. 14:43. From Soils Fert. 23:345 (1960).
From Soils Fert. 23:345 (1960).
Fleury, P., and P. Balatre, 1947. Les Inositols. Paris:Masson et Cie.
Folch, J., and F. N. LeBaron, 1956. The chemistry of the phosphoinositides. Can. J. Biochem. Physiol. 34:305.
Fraps, G. S.. 1911. Effect of ignition on solubility of soil phosphates. Ind. Eng. Chem. 3:335.
Friend, M. T., and H. F. Birch, 1960. Phosphate responses in relation to soil tests and organic phosphorus. J. Agr. Sci. 54:341.
Fuller, W. H., and W. T. McGeorge, 1950. Phosphates in calcareous Arizona soils. I. Solubilities of native phosphates and fixation of added phosphates. Soil Sci. 70:441.
Garman, W. L., 1948. Organic phosphorus in Oklahoma soils. Oklahoma Acad. Sci. Proc. 28:89. From Soils Fert. 12:244 (1949).
Garman, W. L., 1948. Organic phosphorus in Oklahoma soils. Oklahoma Acad. Sci. Proc. 28:89. From Soils Fert. 12:244 (1949).
Ghani, M. O., 1943a. Fractionation of soil phosphorus. 1. Method of extraction. Indian J. Agr. Sci. 13:29.
Ghani, M. O., 1943b. The use of 8-hydroxyquinoline as a means of blocking active iron and aluminium in the determination of available phosphoric acid of soils by dilute acid extraction. Indian J. Agr. Sci. 13:562.
Ghani, M. O., 1944. Fractionation of soil phosphorus. 3. The organic phosphorus fraction. Indian J. Agr. Sci. 14:261.
Ghani, M. O., and S. A. Aleem, 1942. Effect of liming on the transformation of phosphorus in acid soils. Indian J. Agr. Sci. 12:873.
Goring, C. A. L, 1955. Biological transformations of phosphorus in soil. 1. Theory and methods. Plant Soil 6:17.
Goring, C. A. L, and W. V. Bartholomew, 1949. Microbial products and soil organic matter. 2. The effect of clay on the decomposition and separation of the phosphorus compounds in microorganisms. Soil Sci. Soc. Am. Proc. 14:152.
Goring, C. A. L, and W. V. Bartholomew, 1950. Microbial products and soil organic matter. 3. Adsorption of carbohydrate phosphates by clays. Soil Sci. Soc. Am. Proc. 15:189.
Goring, C. A. L, and W. V. Bartholomew, 1952. Adsorption of mononucleotides, nucleic acids, and nucleoproteins by clays. Soil Sci. 74:149.
Greaves, M. P., G. Anderson, and D. M. Webley, 1963. A rapid method of determining phytase activity of soil microorganisms. Nature 200:1231.
Greaves, M. P., G. Anderson, and D. M. Webley, 1967. The hydrolysis of inositol phosphates by Aerobacter Aerogenes. Bioehim. Biophys. Acta 132:412.
Greaves, M. P., and D. M. Webley, 1965. A study of the breakdown of organic phosphates by microorganisms from the root region of certain pasture grasses. J. Appl. Bacterial. 28:454.
Greaves, M. P., and D. M. Webley, 1969. The hydrolysis of mjo-inositol hexaphosphate by soil microorganisms. Soil Biol. Biochem. 1:37.
Greaves, M. P., and M. J. Wilson, 1970. The degradation of nucleic acids and montmorillonite-nucleic-acid complexes by soil microorganisms. Soil Biol. Biochem. 2:257.
Halstead, R. L., and G. Anderson, 1970. Chromatographic fractionation of organic phosphates from alkali, acid, and aqueous acetylacetone extracts of soils. Can. J. Soil Sci. 50:111.
Halstead, R. L., J. M. Lapensee, and K. C. Ivarson, 1963. Mineralization of soil organic phosphorus with particular reference to the effect of lime. Can. J. Soil Sci. 43:97.
Hance, R. J., and G. Anderson, 1962. A comparative study of methods of estimating soil organic phosphate. J. Soil Sci. 13:225.
Hance, R. J., and G. Anderson, 1963a. Extraction and estimation of soil phospholipids. Soil Sci. 96:94.
Hance, R. J., and G. Anderson, 1963b. Identification of hydrolysis products of soil phospholipids. Soil Sci. 96:157.
Hanes, C. S., and F. A. Isherwood, 1949. Separation of the phosphoric esters on the filter paper chromatogram. Nature 164:1107.
Hannapel, R. J., W. H. Fuller, S. Bosma, and J. S. Bullock, 1964. Phosphorus movement in a calcareous soil. 1. Predominance of organic forms of phosphorus in phosphorus movement. Soil Sci. 97:350.
Harrap, F. E. G., 1963. Use of sodium EDTA in the determination of soil organic phosphorus. J. Soil Sci. 14:82.
Jackman, R. H., 1955a. Organic phosphorus in New Zealand soils under pasture. 1. Conversion of applied phosphorus into organic forms. Soil Sci. 79:207.
Jackman, R. H., 1955b. Organic phosphorus in New Zealand soils under pasture. 2. Relation between organic phosphorus content and some soil characteristics. Soil Sci. 79:293.
Jackman, R. H., and C. A. Black, 1951a. Solubility of iron, aluminium, calcium and magnesium inositol phosphates at different pH values. Soil Sci. 72:179.
Jackman, R. H., and C. A. Black, 1952. Phytase activity in soils. Soil Sci. 73:117.
Johnson, D. D., and F. E. Broadbent, 1952. Microbial turnover of phosphorus in soil. Soil Sci. Soc. Am. Proc. 16:56.
Kaila, A. 1948. Viljelysmaan orgaanisesta fosforista. Valtion Maatalouskoetoiminnan Julkaisuja No. 129.
Kaila, A. 1949. Biological absorption of phosphorus. Soil Sci. 68:279.
Kaila, A. 1954. Über mikrobiologische Festlegung und Mineralisierung des Phosphors bei der Zersetzung organischer Stoffe. Z. Pfl. Ernähr. Düng. 64:27.
Kaila, A. 1961. Effect of incubation and liming on the phosphorus fractions in soil. Maataloust. Aikak. 33:185.
Kaila, A. 1962. Determination of total organic phosphorus in samples of mineral soils. Maataloust. Aikak. 34:187.
Kaila, A. 1963. Organic phosphorus in Finnish soils. Soil Sci. 95:38.
Kaila, A. and H. Missilä, 1956. Accumulation of fertilizer phosphorus in peat soils. Maataloust. Aikak. 28:168.
Kaila, A. and O. Virtanen, 1955. Determination of organic phosphorus in samples of peat soils. Maataloust. Aikak. 27:104.
Khorana, H. G., 1961. Some recent developments in the chemistry of phosphate esters of biological interest. New York:Wiley.
Kita, D. A., and W. H. Petersen, 1953. Forms of phosphorus in the penicillin-producing mold Penicillium chrysogenum Q-176. J. Biol. Chem. 203:861.
Kowalenko, C. G., and R. B. McKercher, 1970. An examination of methods for extraction of soil phospholipids. Soil Biol. Biochem. 2:257.
Legg, J. O., and C. A. Black, 1955. Determination of organic phosphorus in soils. 2. Ignition method. Soil Sci. Soc. Am. Proc. 19:139.
Lockett, J. L., 1938. Nitrogen and phosphorus changes in the decomposition of rye and clover at different stages of growth. Soil Sci. 45:13.
McCall, W. W., J. F. Davis, and K. Lawton, 1956. A study of the effect of mineral phosphates upon the organic phosphorus content of organic soil. Soil Sci. Soc. Am. Proc. 20:81.
McConaghy, S., 1960. Soil phosphates, with special reference to organic forms and their availability to plants. Agr. Progr. 35:82.
McDonnell, P. M., and T. Walsh. 1957. The phosphate status of Irish soils with particular reference to farming systems. J. Soil Sci. 8:97.
McKercher, R. B., 1968. Studies on soil organic phosphorus. Trans. Intern. Congr. Soil Sci., 9th, Adelaide, Australia.
McKercher, R. B., and G. Anderson, 1968. Characterization of the inositol penta- and hexaphosphate fractions of a number of Canadian and Scottish soils. J. Soil Sci. 19:302.
McKercher, R. B., and G. Anderson, 1968. Observations on the accuracy of an ignition and an extraction method for measuring organic phosphate in some Canadian soils. Soil Sci. 105:198.
McLaren, A. D., R. A. Luse, and J. J. Skujins, 1962. Sterilization of soil by irradiation and some further observations on soil enzyme activity. Soil Sci. Soc. Am. Proc. 26:371.
Martin, J. K., 1964a. Soil organic phosphorus. 1. Methods for the extraction and partial fractionation of soil organic phosphorus. New Zealand J. Agr. Res. 1:723.
Martin, J. K., 1964b. Soil organic phosphorus. 2. The nature of soil organic phosphorus. New Zealand J. Agr. Res. 7:736.
Martin, J. K., and A. J. Wicken, 1966. Soil organic phosphorus. 4. Fractionation of organic phosphorus in alkaline soil extracts and the identification of inositol phosphates. New Zealand J. Agr. Res. 9:529.
Mehlich, A., 1963. Die Wirkung der Temperatur auf den durch Saure extrahierbaren Phosphor unter dem Einfluss von Tonmineralien und in Beziehung zum organisch gebundenen Phosphor im Boden. Phosphorsaure 23:330.
Mehta, N. C., J. O. Legg, C. A. I. Goring, and C. A. Black, 1954. Determination of organic phosphorus in soils. 1. Extraction method. Soil Sci. Soc. Am. Proc. 18:443.
Mortensen, J. L., 1963. Complexing of metals by soil organic matter. Soil Sci. Soc. Am. Proc. 27:179.
Mortland, M. M., and J. E. Gieseking, 1952. The influence of clay minerals on the enzymatic hydrolysis of organic phosphorus compounds. Soil Sci. Soc. Am. Proc. 16:10.
Moyer, J. R., and R. L. Thomas, 1970. Organic phosphorus and inositol phosphates in molecular size fractions of a soil organic matter extract. Soil Sci. Soc. Am. Proc. 34:80.
Odynsky, W., 1936. Solubility and distribution of phosphorus in Alberta soils. Sci. Agr. 16:652.
Omotoso, T. I., and A. Wild, 1970. Content of inositol phosphates in some English and Nigerian soils. J. Soil Sci. 21:216.
Omotoso, T. I., and A. Wild, 1970. Occurrence of inositol phosphates and other organic phosphate components in an organic complex. J. Soil Sci. 21:224.
Pearson, R. W., 1940. Determination of organic phosphorus in soils. Ind. Eng. Chem. (Anal.) 12:198.
Pearson, R. W., A. G. Norman, and C. Ho, 1941. The mineralization of the organic phosphorus of various compounds in soil. Soil Sci. Soc. Am. Proc. 6:168.
Pearson, R. W., and R. W. Simonson, 1939. Organic phosphorus in seven Iowa soil profiles:Distribution and amounts as compared to organic carbon and nitrogen. Soil Sci. Soc. Am. Proc. 4:162.
Pedersen, E. J. N., 1953. On phytin phosphorus in the soil. Plant Soil 4:252.
Peperzak, P., A. G. Caldwell, R. R. Hunziker, and C. A. Black, 1959. Phosphorus fractions in-manures. Soil Sci. 87:293.
Puri, A. N., and A. Sarup, 1937. The destruction of organic matter in the preliminary treatment of soils for mechanical analysis. Soil Sci. 44:87.
Ratner, E. I., and S. A. Samoilova, (1958). Assimilation of nucleic acids by plants and extracellular phosphatase activity of roots. Fiziologiia Rastenii 5:209. Translation, Plant Physiology (U.S.S.R.) 5:207.
Ratner, E. I., and S. A. Samoilova, (1958). Assimilation of nucleic acids by plants and extracellular phosphatase activity of roots. Fiziologiia Rastenii 5:209. Translation, Plant Physiology (U.S.S.R.) 5:207.
Robertson, G., 1958. Determination of phosphate in citric acid extracts. J. Sci. Food Agr. 9:288.
Rogers, H. T., R. W. Pearson, and W. H. Pierre, 1940. Absorption of organic phosphorus by corn and tomato plants and the mineralizing action of exo-enzyme systems of growing roots. Soil Sci. Soc. Am. Proc. 5:285.
Sauerlandt, W., F. Scheffer, and H. J. Banse, 1957. Untersuchungen über organisch gebundenen Phosphor in verschiedenen Böden.Z. Pfl. Ernähr. Düng. 76:244.
Saunders, W. M. H., and E. G. Williams, 1955. Observations on the determination of total organic phosphorus in soils. J. Soil Sci. 6:254.
Saxena, S. N., and S. Kasinathan, 1956. Organic phosphorus content as an index of fertility of some Indian soils. Proc. Nat. Acad. Sci. India 25A:452.
Schachtschabel, P., and G. Heinemann, 1964. Beziehungen zwischen P-Bindungsart und pH Wert bei Lössböden.Z. Pfl. Ernähr. Düng. 105:1.
Schmidt, G., and S. J. Thannhausen 1945. A method for the determination of deoxyribonucleic acid, ribonucleic acid, and phosphoproteins in animal tissues. J. Biol. Chem. 161:83.
Schollenberger, C. J., 1918. Organic phosphorus of soil:Experimental work on methods for extraction and determination. Soil Sci. 6:365.
Schollenberger, C. J., 1920. Organic phosphorus content of Ohio soils. Soil Sci. 10:127.
Schormüller, J., and G. Bressau, 1960. Phosphate und organische Phosphorverbindungen in Lebensmitteln. 7. Trennung und Charakterisierung von Inositphosphorsäureestern.Z. Lebensm. Untersuch. Forsch. 113:387.
Schreiner, O., and E. C. Shorey, 1910. Chemical nature of soil organic matter. U.S. Dept. Agr. Bur. Soils Bull. 74.
Semb, G., and G. Uhlen, 1954. A comparison of different analytical methods for the determination of potassium and phosphorus in soil based on field experiments. Acta Agr. Scand. 5:44.
Sen Gupta, M. B., and A. H. Cornfield, 1962. Phosphorus in calcareous soils. 2. Determination of the organic phosphorus content of calcareous soils and its relation to soil calcium carbonate content. J. Sci. Food Agr. 13:655.
Shorey, E. C., 1913. Some organic soil constituents. U.S. Dept. Agr. Bur. Soils Bull. 88.
Smith, D. H., and F. E. Clark, 1951. Anion-exchange chromatography of inositol phosphates from soil. Soil Sci. 72:353.
Smith, D. H., and F. E. Clark, 1952. Chromatographic separations of inositol phosphorus compounds. Soil Sci. Soc. Am. Proc. 16:170.
Smith, D. H., and F. E. Clark, 1951. A study of the role of inositol in the nutrition of Nematospora gossypii and Saccharomyces carlsbergensis. J. Gen. Microbiol. 5:772.
Sokolov, D. F., 1948. The presence of several organic phosphorus compounds in the soil. Pochvovedenie 502 (1948). Chem. Abs. 43:4409g (1949).
Szember, A., 1960. Influence on plant growth of the breakdown of organic phosphorus compounds by microorganisms. Plant Soil 13:147.
Taylor, C. B., 1946. Loss of available phosphate in soil due to microorganisms. Nature 158:447.
Thomas, R. L., and D. L. Lynch, I960. Quantitative fractionation of organic phosphorus compounds in some Alberta soils. Can. J. Soil Sci. 40:113.
Thomson, L. M., and C. A. Black, 1947. The effect of temperature on the mineralization of soil organic phosphorus. Soil Sci. Soc. Am. Proc. 12:323.
Thomson, L. M., 1949. The mineralization of organic phosphorus, nitrogen and carbon in Clarion and Webster soils. Soil Sci. Soc. Am. Proc. 14:147.
Thomson, L. M., C. A. Black, and F. E. Clark, 1948. Accumulation and mineralization or microbial organic phosphorus in soil materials. Soil Sci. Soc. Am. Proc. 13:242.
Thomson, L. M., C. A. Black, and J. A. Zoellner, 1954. Occurrence and mineralization of organic phosphorus in soils, with particular reference to associations with nitrogen, carbon and pH. Soil Sci. 77:185.
Tokarskaya-Merenova, V. I., 1956. The direct utilization by higher plants of organic phosphorus compounds. Pochvovedenie 12:17 Soils Fert. 20:160 (1957).
Ulrich, B., and J. H. Benzler, 1955. Der organisch gebundene Phosphor im Boden.Z. Pfl. Ernähr. Düng. 70:220.
Van Diest, A., and C. A. Black, 1958. Determination of organic phosphorus in soils. 3. Comparison of methods. Soil Sci. Soe. Am. Proc. 22:286.
Van Diest, A., and C. A. Black, 1959a. Soil organic phosphorus and plant growth. 1. Organic phosphorus hydrolyzed by alkali and hypobromite treatments. Soil Sci. 87:100.
Van Diest, A., and C. A. Black, 1959b. Soil organic phosphorus and plant growth. 2. Organic phosphorus mineralized during incubation. Soil Sci. 87:145.
Vernon, C. A., 1957. The mechanisms of hydrolysis of organic phosphates. In “Phosphoric Esters and Related Compounds,” Chem Soe., London, Spec. Publ. No. 8:17.
Vincent, V., 1937. Combinasions organiques du phosphore des sols acides:assimilation par les vegetaux. Compt. Rend. 17th Congr. Chim. Ind., Paris 2:861.
Wade, H. E., and D. M. Morgan, 1955. Fractionation of phosphates by paper ionophoresis and chromatography. Biochem. J. 60:264.
Walker, T. W., and A. F. R. Adams, 1958. Studies on soil organic matter. 1. Influence of phosphorus content of parent materials on accumulations of carbon, nitrogen, sulfur and organic phosphorus in grassland soils. Soil Sci. 85:307.
Weissflog, J., and H. Mengdehl, 1933. Studien zum Phosphorstoffwechsel in der höheren Pflanze. 3. Aufnahme und Verwertbarkeit organischer Phosphorsäureverbindungen durch die Pflanze. Planta. 19:182.
Whiting, A. L., and A. F. Heck, 1926. The assimilation of phosphorus from phytin by oats. Soil Sci. 22:477.
Wild, A., and O. L. Oke, 1966. Organic phosphate compounds in calcium chloride extracts of soils:Identification and availability to plants. J. Soil Sci. 17:356.
Williams, C. H., 1950a. Studies on soil phosphorus. 1. A method for the partial fractionation of soil phosphorus. J. Agr. Sci. 40:233.
Williams, C. H., 1950b. Studies on soil phosphorus. 3. Phosphorus fractionation as a fertility index in South Australian soils. J. Agr. Sci. 40:257.
Williams, C. H., and G. Anderson, 1968. Inositol phosphates in some Australian soils. Australian J. Agr. Res. 6:121.
Williams, C. H., and C. M. Donald, 1957. Changes in organic matter and pH in a podzolic soil as influenced by subterranean clover and superphosphate. Australian J. Agr. Res. 8:179.
Williams, C. H., E. G. Williams, and N. M. Scott, 1960. Carbon, nitrogen, sulphur and phosphorus in some Scottish soils. J. Soil Sci. 11:334.
Williams, E. G., 1959. Influences of parent material and drainage conditions on soil phosphorus relationships. Agroehimiea 3:279.
Williams, C. H., N. M. Scott, and M. J. McDonald, 1958. Soil properties and phosphate sorption. J. Sci. Food Agr. 9:551.
Williams, C. H., and W. M. H. Saunders, 1956. Distribution of phosphorus in profiles and particle-size fractions of some Scottish soils. J. Soil Sci. 1:90.
Wrenshall, C. L., and W. J. Dyer, 1941. Organic phosphorus in soils. 2. The nature of the organic phosphorus compounds. A. Nucleic acid derivatives. B. Phytin. Soil Sci. 51:235.
Wrenshall, C. L., and R. R. McKibbin, 1937. Pasture studies. 12. The nature of the organic phosphorus in soils. Can. J. Res. 15B:475.
Yoshida, R. K., 1940. Studies on organic phosphorus compounds in soil; isolation of inositol. Soil Sci. 50:81.
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Anderson, G. (1975). Other Organic Phosphorus Compounds. In: Gieseking, J.E. (eds) Soil Components. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-65915-7_4
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