Plant and Soil

, Volume 1, Issue 1, pp 51–81 | Cite as

The influence of microorganisms on the phosphate intake by the plant

  • F. C. Gerretsen


Phosphate Plant Physiology Phosphate Intake 
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  1. 1).
    Liebig, J., Über einige Eigenschaften der Ackerkrume. Ann. Chem. Pharm.105, 109–144 (1858).Google Scholar
  2. 2).
    Sachs, J., Physiologie der Pflanze. 189–191 (1865).Google Scholar
  3. 3).
    Miller, E. C., Plant Physiology. — First Ed. (1931).Google Scholar
  4. 4).
    Stoklasa, J., Biochemischer Kreislauf des Phosphat-Ions im Boden. Centr. Bakt. Parasitenk.29, 385–519 (1911).Google Scholar
  5. 5).
    Fred, E. B. and Haas, A. R. C., The etching of marble by roots in the presence and absence of bacteria. J. Gen. Physiol.1, 631–638 (1919).Google Scholar
  6. 6).
    Starkey, R. L., Plant growth and microorganismsV. Soil Sci.27, 319–444 (1929).Google Scholar
  7. 7).
    Gräf, G., Über den Einfluss des Pflanzenwachstums auf die Bakterien im Wurzelbereich. Centr. Bakt. Parasitenk. II.82, 44–69 (1937).Google Scholar
  8. 8).
    Mazé, P., Recherches sur la physiologie végétale. Ann. Inst. Pasteur.25, 705–738 (1911).Google Scholar
  9. 9).
    Virtanen, A. J. and Laine, T., Investigations on the root nodule bacteria of leguminous plants. The excretion products of root nodules. Biochem. J.33, 412 (1939).Google Scholar
  10. 10).
    Rosendahl, R. O., The effect of mycorrhizae and non mycorrhizae fungi on the availability of difficultly soluble potash and phosphate minerals. Proc. Soil Sci. Soc. America7, 477–479 (1942).Google Scholar
  11. 11).
    Mitchel, H. L., Finn, R. F., Rosendahl, R. O., The relation between mycorrhizae and the growth and nutrient absorption of coniferous seedlings in nursery beds. Black Rock Forest Papers1, 58–73 (1937).Google Scholar
  12. 12).
    Wilde, Forest Soils and forest growth. — 100. (1946).Google Scholar
  13. 13).
    Dustman, B., Inherent factors related to absorption of mineral elements by plants. Botan. Gaz.79, 233–264 (1925).Google Scholar
  14. 14).
    Gerretsen, F. C., Das Katadyn-Verfahren zur sterilen Kultur höherer Pflanzen Planta23, 593–603 (1935).Google Scholar
  15. 15).
    Neubauer, H. and Schneider, W., Die Nährstoffaufnahme der Keimpflanzen und ihre Anwendung auf die Bestimmung des Nährstoffgehalts der Boden. Z. Pflanzenernähr. Dungung. A.2, 329–362 (1923).Google Scholar
  16. 16).
    Waksman, S. A., Soil Microbiology. — 16. Ed. (1927).Google Scholar
  17. 17).
    Gerretsen, F. C., Manganese deficiency of oats and its relation to soil bacteria. Ann. Botany. New Series.1, 207–230 (1937).Google Scholar
  18. 18).
    Honert, T. H. van den, Onderzoekingen over de voedingsphysiologie van suikerriet. Meded. Proefst. Java-Suikerind.23, 71–108 (1933).Google Scholar
  19. 19).
    Calfee, R. K. and McHargue, J. S., An automatic watering system for pot cultures. J. Am. Soc. Agron.29, 797–800 (1937).Google Scholar
  20. 20).
    Offset, E. B., Calfee, R. K., and McHargue, J. S., An apparatus made from glass for the continuous watering of pot cultures. J. Am. Soc. Agron.31, 725–728 (1939).Google Scholar
  21. 21).
    Lyon, T. L. and Buckman, H. O., The nature and properties of soils. (1922).Google Scholar

Copyright information

© Martinus Nijhoff 1949

Authors and Affiliations

  • F. C. Gerretsen
    • 1
  1. 1.Microbiological Dep. of the Agr. Experiment Station and Institute for Soil Research T.N.O. Groningenthe Netherlands

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