Literaturverzeichnis

1. Aach, H.G., Über Wachstum und Zusammensetzung von Chlorelle pyrenoidosa bei unterschiedlichen Lichtstärken und Nitratmengen. Arch. Mikrobiol. 17., 223 (1952)

   Google Scholar 

2. BRUNEL,J.,G.W. PRESCOTT and L.H. TIFFANY, The culturing of algae: A symposium. The Charles F. Kettering Foundation, Yellow Springs, Ohio (1950)

   Google Scholar 

3. BURLEW, J.S., Algal culture, from laboratory to pilot plant., Carnegie Institution of Washington, Publ.No. 600 (1953)

   Google Scholar 

4. BURLEW, J.S., Pilot-plant studies in the production of Chlorella, based on report by Arthur D. Little, Inc. In: 3 ), 235

   Google Scholar 

5. CARPENTER, E.P.,Transactions of the conference on the use of solar energy/the scientific basis. Vol.IV, Photochemical processes. Tuscon Arizona (1955)

   Google Scholar 

6. COOK, P.M., Large-scale culture of Chlorella.In: (2), 53

   Google Scholar 

7. DAVIS, E.A., J. DEDRICK, C.S. FRENCH, H.W. MILNER, J. MYERS, J.H.C. SMITH and H.A. SPOEHR, Laboratory experiments on Chlorella culture at the Carnegie Institution of Washington, department of plant biology. In: (3), 105

   Google Scholar 

8. GEOGHEGAN, M.J., Experiments with Chlorella at Jealott’s Hill. In: (3), 182

   Google Scholar 

9. GOTAAS, H.B. and W.J. OSWALD, Utilisation of solar energy for waste reclamation. In: (5), 95

   Google Scholar 

10. GUNMERT, F.,M.-E. MEFFERT and H. STRATMANN, Nonsterile large-scale culture of Chlorella in greenhouse and open air. In: (3), 166

    Google Scholar 

11. HARDER, R. und H. v. WITSCH, Über Massenkultur von Diatomeen. Ber.deut.bot.Ges. 60, 146 (1942)

    Google Scholar 

12. IWAMURA, T., E. HASE, Y. MORIMURA and H. TAMIYA, Life cycle of the green alga Chlorella with special reference to the protein and nucleic acids contents of cells in succesive formative stages. Ann.Acad. Sci. Fennicae, Ser.A, II (A.I.Virtanen Homage Volume) 60, 89 (1955)

    Google Scholar 

13. KRAUSS, R.W. and W.H. THOMAS, The growth and inorganic nutrition of Scenedesmus obliquus in mass culture. Plant Physiol. 29, 205 (1954)

    Article  Google Scholar 

14. KRAUSS, R.W. and W.J. McALEER, Growth and evaluation of species of algae with regard to sterol content. In: (3), 316

    Google Scholar 

15. MAYER, A.M., EISENBERG and M. EVENARI, Studies on the deep mass culture of algae in Israel. In: (5), 55

    Google Scholar 

16. MEFFERT, M.-E. und H. STRATMANN, Über die unsterile Großkultur von Scenedesmus obliquus. Zbl.f.Bakt.II. Abt. 108, 154 (1954)

    Google Scholar 

17. MEFFERT, M.-E., Die Kultur von Scenedesmus obliquus in Abwasser. Forschungsberichte des Wirtschafts- und Verkehrsministeriums Nordrhein-Westfalen, Nr. 514 (1956)

    Google Scholar 

18. MITUYA, A, T. NYUNOYA and H. TAMIYA, Pre-pilot-plant experiments on algal mass culture. In: (3), 273

    Google Scholar 

19. OORSCHOT, J.L.P. van, Conversion of light energy in algal culture. Mededel. Landbouwhogeschool Wageningen/Nederland 55, 225 (1955)

    Google Scholar 

20. PEARSALL, W.H. and L. LOOSE, Growth of Chlorella vulgaris in pure culture. Proc.Roy.Soc. London B121, 451 (1937)

    Google Scholar 

21. PIRSON, A., Functional aspects in mineral nutrition of green plant. Ann.Rev.Plant Physiol. 6, 71 (1955)

    Article  Google Scholar 

22. RODHE, W., Environmental requirements of freshwater plancton algae. Symbolae Bot. Upsal. 10, 1 (1948)

    Google Scholar 

23. SASA, T., Y. MORIMURA and H. TAMIYA, Seasonal variation of growth rate of various strains of univellular algae under natural light-and temperature conditions. J.Gen.Appl.Microbiol. 1, 183 (1955)

    Article  Google Scholar 

24. SOROKIN, C. and J. MYERS, A high temperature strain of Chlorella. Science 117 330 (1953)

    Google Scholar 

25. SPOEHR, H.A. and H.W. MILNER, The chemical composition of Chlorella; effect of environmental conditions. Plant Physiol, Li, 120 (1949)

    Google Scholar 

26. SPOEHR, H.A.,J.H.C. SMITH, H.H. STRAIN, H.W. MILNER and G.J. HARDIN, Fatty acid antibacterials from plants. Carnegie Institution of Washington, Publ.No. 586 (1949)

    Google Scholar 

27. TAMIYA, H., Mass culture of algae, Ann.Rev.Plant. Physiol: 8, 309 (1957)

    Article  Google Scholar 

28. TAMIYA, H.,E. HASE, K. SHIBATA; A. MITUYA, T. IWAMURA, T. NIHEI, and T. SASA, Kinetics of Growth of Chlorella, with special reference to its dependence on quantity of available light and on temperature. In: (3), 204

    Google Scholar 

29. TAMIYA, H. K. SHIBATA, T. SASA, T. IWAMURA and Y. MORIMURA, Effect of diurnally intermittent illumination on the growth and some cellular characteristics of Chlorella.In: (3), 76

    Google Scholar 

30. TAMIYA, H., Growing Chlorella for food and feed. In: Proc.World Symposium Ap11.Solar Energy, 231, Phoenix, Arizona (1955)

    Google Scholar 

31. WASSINK, E.C.,B. KOK and J.L.P. van OORSCHOT, J.L.P. van OORSCHOT, The efficiency of light-energy conversion in Chlorella cultures as compared with higher plants. In: (3), 55

    Google Scholar 

32. WITSCH, H. v. und R. HARDER, Stoffproduktion durch Grünalgen und Diatomeen in Massenkultur. In: (3), 154

    Google Scholar 

Download references