Bortels, H. Molybdän als Katalysator bei der biologischen Stickstoffbindung

Arch. Mikrobiol. 1, 333-342 (1930).

30. Bortels, H. Weitere Untersuchungen über die Bedeutung von Molybdän, Vanadium, Wolfram und anderen Erdaschenstaffen für Stickstoffnerbindende und andere Mikroorganismen. Zentr. Bakteriol. Parasitenk. Abt. II, 9 5 , 193-218 (1936).

31. Bould, C. Seasonal changes in the major nutrients of black currant leaves. /.

Hort. Sei. 3 0 , 188-196 (1955).

32. Bould, C. Manurial experiments with fruit. III. Ann. Rept. Agr. Hort. Research Sta. Long Ashton Bristol, pp. 84-92 (1959).

33. Bould, C , Bradfîeld, E. G., and Clarke, G. M. Leaf analysis as a guide to the nutrition of fruit crops. 1. General principles, sampling techniques and analytical methods. / . Sei. Food Agr. 1 1 , 229-242 (I960).

34. Bould, C , Nicholas, D. J. D., Tolhurst, J. A. H., and Potter, J. M. S. Zinc deficiency of fruit trees in Great Britain. /. Hort. Sei. 2 8 , 260-267 (1953).

35. Bould, C , and Tolhurst, J. Report on the use of foliage sprays for the control of magnesium deficiency in apples. Ann. Rept. Agr. Hort. Research Sta. Long Ashton Bristol, pp. 51-58 (1948).

36. Boussingault, J. B. "Recherches sur la végétation." Agronomie, chimie agricole et physiologie, Mallet-Bachelier, 3rd ed. Paris, 1886-1891.

37. Boynton, D. Nutrition by foliar application. Ann. Rev. Plant Physiol. 5, 31-54 (1954).

38. Bradshaw, A. D. Populations of Agrostis tenuis resistant to lead and zinc poison-ing. Nature 169, 1098 (1952).

39. Bradshaw, A. D., Lodge, R. W., Jowett, D., and Chadwick, M. J. Experimental investigations into the mineral nutrition of several grass species. I. Calcium level. /. Ecol. 46, 749-757 (1958).

40. Bradshaw, A. D., Lodge, R. W., Jowett, D., and Chadwick, M. J. Experimental investigations into the mineral nutrition of several grass species. Part II. pH and calcium level. /. Ecol. 48, 143-150 (1960).

41. Bradshaw, A. D., and Snaydon, R. W. Population differentiation within plant species in response to soil factors. Nature 183, 129-130 (1959).

42. Bray, R. H. Soil plant relations: I. The quantitative relation of exchangeable potassium to crop yields and to crop response to potash additions. Soil Sei. 58, 305-324 (1944)

43. Bray, R. H. Correlation of soil tests with crop response to added fertilizers and with fertilizer. In "Diagnostic Techniques for Soils and Crops" (H. B.

Kitchen, ed.), pp. 53-86. American Potash Institute, Washington, D.C., 1948.

44. Bremner, J. M. Studies on soil organic matter. I. The chemical nature of soil organic nitrogen. /. Agr. Sei. 39, 183-193 (1949).

45. Bremner, J. M. Determination of fixed ammonium in soil. /. Agr. Sei. 52, 147-160 (1959).

46. Brownell, P. F., and Wood, J. G. Sodium as an essential micronutrient element for Atriplex vesicaria, Heward. Nature 179, 635-636 (1957).

47. Broyer, T. C , Carlton, Α. Β., Johnson, C. M., and Stout, P. R. Chlorine, a micronutrient element for higher plants. Plant Physiol. 29, 526-532 (1954).

48. Bukovac, M. J., and Wittwer, S. H. Absorption and mobility of foliar applied minerals. Plant Physiol. 32, 428-435 (1957).

49. Burd, J. S. Water extraction of soils as criteria of their crop producing power.

7. Agr. Research 12, 297-309 (1918).

50. Burd, J. S., and Martin, J. C. Water displacement of soils and the soil solution.

J. Agr. Sei. 13, 265-295 (1923).

51. Burd, J. S., and Martin, J. C. Secular and seasonal changes in the soil solution.

Soil Sei. 18, 151-167 (1924).

52. Burk, D. Azotase and nitrogenase in Azotobacter. Ergebn. Enzymforsch. 3, 2 3 -57 (1934).

53. Burk, D., and Lineweaver, H. The influence of calcium and strontium on the catalysis of nitrogen fixation by Azotobacter. Arch. Mikrobiol. 2, 155-186

(1931).

54. Cameron, F. K. "The Soil Solution." Chemical Publ. Co., Easton, Pennsylvania, 1911.

55. Chaminade, R., and Drouineau, G. Researches on the chemical mechanics of ex-changeable cations. Ann. Agron. 6, 677-690 (1936).

56. Clayton, Ε. E. Investigations of cauliflower diseases on Long Island. Ν. Y. State Agr. Expt. Sta. (Geneva, N.Y.) Bull. No. 506 (1924).

57. Cochran, W. G., and Cox, G. M. "Experimental Designs." Wiley, New York, 1958.

58. Coleman, N. T., Williams, D. E., Nielsen, T. R., and Jenny, H. On the validity

of interpretation of potentiometrically measured soil pH. Soil Sei. Soc. Am. Proc.

15, 106-110 (1950).

59. Colwell, W. E., and Cummings, R. W. Chemical and biological studies on aqueous solutions of boric acid and of calcium, sodium and potassium meta-borates. Soil. Sei. 57, 37-49 (1944).

60. Cook, J. Α., and Boynton, D. Some factors affecting the absorption of urea by Mcintosh apple leaves. Proc. Am. Soc. Hort. Sei. 59, 82-90 (1952).

61. Crowther, Ε. M. The technique of modern field experiments. 7. Roy. Agr. Soc.

97, 1-28 (1936).

62. Dalbro, S. Leaching of apple foliage by rain. Proc. 14th Intern. Hort. Congr.

1, 770-778 (1955).

63. Da vies, Ε. B. Factors affecting molybdenum availability in soils. Soil Sei. 81, 209-221 (1956).

64. Dean, L. Α., and Fried, M. Soil-plant relationships in the phosphorus nutrition of plants. In "Soil and Fertilizer Phosphorus in Crop Nutrition" (W. H. Pierre and A. G. Norman, eds.), pp. 43-58. Academic Press, New York, 1953.

65. Delwiche, C. C , Johnson, C. M., and Reisenauer, Η. M. Influence of cobalt on nitrogen fixation of Medicago. Plant Physiol. 36, 73-78 (1961).

66. de Saussure, Th. "Recherches chimiques sur la végétation," Nyon, Paris, 1804.

66a. Dorph-Petersen, K., and Steenbjerg, F. Investigations of the effect of fertilizer containing sodium. Plant and Soil 2, 283-300 (1950).

67. Duff, R. B., and Webley, D. W. 2-Ketogluconic acid as a natural chelator. Chem.

& Ind. (London), pp. 1376-1377 (1959).

68. Duhamel du Monceau, H. L. "La physique des arbres." Guerin & Delatour, Paris (1758).

69. Durrant, Α., and Tyson, H. Conditioned lines of flax. Nature 185, 60 (1960).

70. Dyer, B. On the analytical determination of probable available mineral plant food in soils. 7. Chem. Soc. (London) 65, 115-167 (1894).

71. Elgababy, H. M., and Wiklander, L. Effect of exchange capacity of clay mineral and acidoid content of plant on uptake of sodium and calcium by excised barley and pea roots. Soil Sei. 67, 419-424 (1949).

72. Ferguson, W. S., Lewis, A. H., anal Watson, S. J. Action of molybdenum in nutrition öf milking cattle. Nature 141, 553 (1938).

73. Fisher, E. G., and Walker, D. R. The apparent absorption of phosphorus and magnesium from sprays applied to the lower surface of Mcintosh apple leaves.

Proc. Am. Soc. Hort. Sei. 65, 17-24 (1955).

74. Fisher, R. A. "Statistical Methods for Research Workers," 7th ed. Oliver and Boyd, London, 1938.

75. Floyd, B. F. Leaf spotting of citrus. Florida Agr. Expt. Sta. Ann. Rept. No. 91 (1908).

76. Floyd, B. F. Yellow spotting of citrus. Florida Agr. Expt. Sta. Ann. Rept. No.

86 (1909).

77. Frear, W., and Erb, E. S. Condition of fertilizer potash residues in Hagerstown silt loam soil. 7. Agr. Research 15, 59-81 (1918).

78. Fried, M., and Dean, L. A. A concept concerning the measurement of available soil nutrients. Soil Sei. 73, 263-271 (1952).

79. Fried, M., and Shapiro, R. E. Soil-plant relations in phosphorus uptake. Soil Sei.

90, 69-76 (1960).

80. Fussell, G. E. The technique of early field experiments. 7. Roy. Agr. Soc. Engl.

96, 78-88 (1935).

C . B O U L D A N D E . J. H E W I T T

81. Garner, W., McMurtrey, J., Bacon, C , and Moss, E. G. Sand drown, a chlorosis of tobacco due to magnesium deficiency, and the relation of sulphates and chlorides to the disease. 7. Agr. Research 23, 27-40 (1923).

82. Gilbert, Β. E., and Hardin, L. J. The current mineral nutrient content of the plant solution as a possible means of chemical control of optimum fertilization.

7. Agr. Research 35, 185-192 (1927).

83. Goldschmidt, V. M. The principles of distribution of chemical elements in minerals and rocks. 7. Chem. Soc. Part 1, 655-673 (1937).

84. Goldschmidt, V. M. The geochemical background of minor-element distribution.

Soil Sei. 60, 1-7 (1945).

85. Goldschmidt, V. M. "Geochemistry" (A. Muir, ed.). Oxford Univ. Press, London and New York, 1954.

86. Goodall, D. W., and Gregory, F. G. "Chemical Composition of Plants as an Index of their Nutritional Status." Imp. Bur. Hort. Plantation Crops Tech.

Commun. No. 1 7 . Imperial Agricultural Bureaux, Aberystwyth, Wales, 1947.

87. Grahame, D. C , and Seaborg, G. T. The distribution of minute amounts of material between liquid phases. 7. Am. Chem. Soc. 60, 2524-2528 (1938).

88. Greaves, J. E. The arsenic content of soils. Soil Sei. 38, 355-362 (1934).

89. Grim, R. "Clay Mineralogy." McGraw-Hill, New York, 1953.

90. Gris, E. Nouvelles expériences sur l'action de composés ferrugineux solubles

In document Mineral Nutrition of (Pldal 107-110)