Microbiological Assays of Hays for Their Amino Acids According to Soil Types and Treatments, Including Trace Elements.
1. Association of Official Agricultural Chemists. Official and Tentative Methods of Analysis of the Association of Official Agricultural Chemists. Menasha, Wis.: George Banta Publishing Company. Ed. 6, 1945.
2. Marais, J. S. C., and Smuts, D. B., The amino acid deficiencies of certain plant proteins and the supplementary effect between plant proteins as measured by means of biological values. Onderstepoort Jour. Vet. Sci. Animal Ind., 15: 225–238, 1940.
3. Harrow, Benjamin, Textbook of Biochemistry. Philadelphia: W. B. Saunders Company. 1941, (p. 117.).
4. Stokes, J. L., and Gunness, M., Microbiological method for determination of amino acids I; aspartic acid and serine. Jour. Biol. Chem., 157: 51–59, 1945.
5. Stokes, J. L., and Gunness, M., Dwyer, I. M., and Caswell, M. C., Microbiological methods for the determination of amino acids II; a uniform assay procedure for the ten essential amino acids. Jour. Biol. Chem., 160: 35–49, 1945.
Discrimination in Food Selection by Animals.
1. Richter, Curt P., 1942–43. Total self-regulator functions in animals and human begins. The Harvey Lecture Series, 38: 63–103.
2. Mitchell H. A., and Hosley. N. W., 1936. Differential browsing by deer on plots variously fertilizers. Black Rock Forest Paper I. 24–27.
3. Price, Weston A., 1943. The role of a new vitamin–like activator in the control of dental caries. Jour. Amer. Dental Assn., 30: 888–905.
4. Evans, E. A. Jr., et al. 1942. The biological action of vitamins. A Symposium. Riboflavin—Paul Gyorg p. 61. University of Chicago Press.
The Influence of Soil Mineral Elements on Animal Nutrition.
1. Albrecht, Wm. A., and Klemme, A. W., Limestone mobilizes phosphate into Korean lespedeza. Jour. Amer. Soc. Agron. 31: 284–286, 1939.
2. Albrecht, Wm. A., Potassium in the soil colloid complex and potassium nutrition. Soil Sci., 55: 13–21, 1943.
3. Albrecht, Wm. A., Protein Deficiencies via Soil Deficiencies. H. Experimental Evidence. Oral Surgery, Oral Medicine and Oral Pathology, 5: 483–499, 1952.
4. Bonner, James and Arthur W. Galston, Principles of Plant Physiology. W. H. Freeman & Company, San Francisco.
5. Browne, Charles E., A Source Book of Agricultural Chemistry. Chronica Botanica, Waltham, Mass.
6. Broyer, T. C., Carlton, A. B., Johnson, C. M., and Stout, P. R., Chlorine. A micronutrient element for higher plants. Plant Physiology, 29: 526–632, 1954.
7. Corrie, F. W., Some Elements of Plants and Animals. The mineral elements of plant and animal nutrition. Fertilizer Journal, Ltd., London, 1948.
8. Graham, E. R., Testing Missouri Soils. Mo. Agr. Expt. Sta. Cir. 345, 1950.
9. Horner, Glenn, Relation of the Degree of Base Saturation of a Colloidal Clay by Calcium to the Growth, Nodulation and Composition of Soybeans. Mo. Agr. Expt. Sta. Res. Bul. 232, 1935.
10. Kochler, Fred E. and Albrecht, Wm. A., Biosynthesis of amino acids according to soil fertility. III. Bioassays of forage and grain fertilized with “trace” elements. Plant and Soil, IV: 336–344, 1953.
11. Marshall, C. E., The activities of cations held by soil colloids and the chemical environment of plant roots. “Mineral Nutrition of Plants,” Chapter 3, Univ. of Wisconsin Press, 1951.
12. Pfander, W. H., Muhrer, M. E., Brooks, C. C., and Garner, G. B., Rumenology. Research for Better Farm Living Mo. Agr. Expt. Sta. Bull. 619, 1954.
13. Reed, Lester W., Biosynthesis in Plants as Influenced by Inorganic Nutrient Balance in the Soil. Ph. D., Thesis Univ. of Missouri, 1953.
14. Schroeder, R. A., and Albrecht, Wm. A., Plant Nutrition and the Hydrogen Ion. III. Soil calcium and the oxalate content of spinach. Bul. Torrey Bot. Club. 69: 561–568, 1942.
15. Sheldon, V. L., Blue, Wm. G., and Albrecht, Wm. A., Biosynthesis of amino acids according to soil fertility. I. Tryptophane in forage crops. Plant and Soil I: 33–40, 1951.
16. Sheldon, V. L., Blue Wm. G., and Albrecht, Wm. A., Biosynthesis of amino acids according to soil fertility. II. Methionine contents of plants and sulfur applied. Plant and Soil II: 361–365, 1951.
17. Steen, Melvin O., Not How Much, but How Good. Missouri Conservationist 16: 1–3, 1955.
18. Walton, Izaak, The Complete Angler, p. 109. Everyman’s Library. J. M. Dent & Co., London.
19. Wittwer, S. H., Schroeder R. A., and Albrecht, Wm. A., Vegetable crops in relation to soil fertility. II. Vitamin C and nitrogen fertilizers. Soil Sci. 59: 329–336, 1945.
20. Wittwer, S. H., Albrecht Wm. A., and Goff, H. R., Vegetable crops in relation to soil fertility. III, Oxalate content and nitrogen fertilizers. Food Research 11: 54–60, 1946.
Feed Efficiency in Terms of Biological Assay of Soil Treatments.
1. Albrecht, Wm. A., and Smith, G. E., Biological assays of soil fertility. Soil Sci. Soc. Amer. Proc., 6: 252–258, 1942.
2. Auchter, E. C., The interrelation of soils and plant, animal, and human nutrition. Science, 89: 421–427, 1939.
3. Crampton, E. W., and Finlayson, D. A., Pasture studies: VII. The effect of fertilization on the nutritive value of pasture grass. Emp. Jour. Exp. Agr. 3: 331–345, 1935.
4. Crampton, E. W., and Forshaw, R. P., The interseasonal changes in the nutritive value of pasture herbage. Sci. Agr., 19: 701–711, 1939.
5. Crampton, E. W., and Maynard, L. A., The relation of cellulose and lignin content to the nutritive value of animal feeds. Jour. Nutr., 15: 383–395, 1938.
6. Hester, Jackson B., Influence of soil fertility on the quality of tomatoes. Soil Sci. Soc. Amer. Proc., 6: 343–345, 1942.
7. Schuphan, W., Eine kritische Stellungnahme von Agrikulturechemie and Medizin zur Frage der alleinigen Stallmistdungung bei Gemuse. Die Ernahrung, 5: 29–42, 1940.
8. Stubblefield, F. M., and DeTurk, E. C., The composition of corn, oats, and wheat as influenced by soil treatment, seasonal conditions and growth. Soil Sci. Soc. Amer. Proc., 5: 120–124, 1941.
9. Vandecaveye, S. C., Effect of soil type and fertilizer treatments on the chemical composition of certain forages and small grain. Soil Sci. Soc. Amer. Proc., 5: 107–119, 1941.
10. Williams, Dorothy E., MacLeod, Florence L., and Morrell, Elsie, Availability to white rats of phosphorus in lespedeza sericea and alfalfa hays. Jour. Nutr., 19: 251–262, 1940.
11. Williams, Dorothy E., MacLeod, Florence L., and Morrell, Elsie, Availability to white rats of phosphorus in soybean and red clover hays. Jour. Nutr., 20: 391–398, 1940.
Biosynthesis of Amino Acids According to Soil Fertility, III: Bioassay of Forage and Grain Fertilized with “Trace” Elements.
1. Albrecht, Wm. A., and Smith, G. E., Biological Assays of Soil Fertility. Soil Sci. Soc. Am. Proc. 6, 252–258 (1941).
2. Kendall, K. A., Nevens, W. RB., and Overman, O. R., The Lactation Response as Limited by Feeds Produced Under Two Systems of Soil Fertilization. J. Nutr. 36, 625–638 (1948).
3. McLean, E. O., Smith, G. E., and Albrecht, Wm. A., Biological Assays of some soil types under treatment. Soil Sci. Soc. Am. Proc. 8, 282–286 (1944).
4. Rose, W. C., Half–century of amino acid investigation. Chem. Eng. News 20, 2385–2388 (1952).
5. Sheldon, V. C., Blue, Wm. G., and Albrecht, Wm. A., Diversity of amino acids in legumes according to soil fertility. Science 108, 426–428 (1943).
6. Sheldon, V. C., Blue, Wm. G., and Albrecht, Wm. A., Diversity of amino acids in legumes according to soil fertility. II. Methionine content of plants and the sulfur applied. Plant and Soil 3, 361–365 (1951).
7. Sheldon, V. C., Blue, Wm. G., and Albrecht, Wm. A., Biosynthesis of amino acids according to soil fertility. I. Tryptophane in forage crops. Plant and Soil 3, 33–40 (1951).
8. Smith, G. R., and Albrecht, Wm. A., Feed efficiency in terms of biological assays of soil treatments. Soil Sci. Soc Am. Proc. 7, 322–330 (1942).
Biosynthesis of Amino Acids According to Soil Fertility: IV. Timothy Hay Grown with Trace Elements.
1. Albrecht, Wm. A., Trace elements and agriculture production. J. Applied Nutrition VIII, 352–354 (1955).
2. Albrecht, Wm. A., Trace elements and the production of proteins. J. Applied Nutrition X, 534–543 (1957).
3. Albrecht, Wm. A., Pettit Gay, Lee, and Jones, G. S., Trace elements, Allergies and Soil Deficiencies. J. Applied Nutrition XIII, 20–32 (1960).
4. Garner, George B. et al., Learn to live with nitrates. Missouri Agr. Expt. Sta. Bull. 708 (1958).
5. Hampton H. E., and Albrecht, Wm. A., Nodulation modifies nutrient intake from colloidal clay by soybeans. Soil Sci. Soc. Am. Proc. 8, 234–237 (1944).
6. Hogan, A. G., Albrecht, Wm. A., and Norwood, Geo, Value of timothy hay as sheep feed in response to soil treatment. Missouri Agr. Expt. Sta. Bull. 444, 80 (Annual Report) (1942).
7. Koehler, Fred and Albrecht, Wm. A., Biosynthesis of amino acids according to soil fertility. I Tryptophane in Forage Crops. Plant and Soil iii. 33–40 (1951).
8. Sheldon, V. L., Blue, Wm. G., and Albrecht, Wm. A., Biosynthesis of amino acids according to soil fertility. I Tryptophane in Forage Crops. Plant and Soil III, 33–40 (1951).
9. Sheldon, V. L., Blue, Wm. G., and Albrecht, Wm. A., Biosynthesis of amino acids according to soil fertility. II Methionine content of plant and sulphur applied. Plant and Soil III, 361–365 (1951).
10. Stokes, J. L., Gunnes, M., Dwyer, I. M., and Caswell, M. C., Microbiological methods for determination of amino acids. J. Biol. Chemistry, 160, 35–49 (1945).
11. Wendel, Wilmer J., Bioassay of soil fertility under forages via selections and growth by weaning rabbits. Thesis for Masters Degree, Univ. of Missouri (1959).
12. What’s New in Food and Drug Research. Biochemists Exploring for Metals. No. 29, January, 1962, Food and Drug Research Laboratories, Maurice Ave, at 58th St. Maspeth 78, New York City (1962).
Soil Fertility and Wildlife—Cause and Effect.
1. Albrecht, W. A., 1943. Soil and Livestock. The Land 2: 298–305.
2. Bogart, Lotta Jean, 1943. Nutrition and physical fitness. W. B. Saunders and Company.
3. Bogart, Ralph, 1944. Loss of pigs. Mo. Agr. Exp. Sta. Farm News Service 32, No. 26.
4. Powell, Elmer B., 1944. Private correspondence.
Publisher’s Note:
This bibliography contains reference works that Dr. William A. Albrecht used for research when working on many of the papers contained in this book. Some selections are not available from works that have been obtained from Dr. Albrecht’s personal papers.