Hostname: page-component-84b7d79bbc-g78kv Total loading time: 0 Render date: 2024-07-26T22:29:55.119Z Has data issue: false hasContentIssue false
  • English
  • Français

Some Observations on the Assimilation of Atmospheric Nitrogen by a Free Living Soil Organism.—Azotobacter Chroococcum of Beijerinck

Published online by Cambridge University Press:  27 March 2009

S. F. Ashby
S. F. Ashby
Affiliation:
Carnegie Research Fellow, Rothanisted Experiment Station.
Get access Rights & Permissions [Opens in a new window]

Extract

Some years before the appearance of Hellriegel and Wilfarth's work on the sources of nitrogen of leguminous plants, and while the part played by atmospheric nitrogen in the nutrition of crops was under active discussion, Berthelot was making some exact observations on the behaviour of uncropped soils towards the free element. He found that when 50 kilograms of air-dry arable soil were exposed to the air and rain in a vessel for seven months a great increase in the nitrogen content could be observed; the total nitrogen of the original soil had increased from 50 grams to 63, or a gain of over 25 per cent, after allowing for the small amount of combined nitrogen brought down by rain; in another experiment where the soil had first been washed free from nitrates, a gain of 46 per cent, of nitrogen was proved. In many other cases, however, the gain was only from 10–15 per cent, of the original nitrogen present in the soil.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 2 , Issue 1 , January 1907 , pp. 35 - 51
Copyright
Copyright © Cambridge University Press 1907

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Beijerinck, M. W.Über oligonitrophile Mikroben. Centr.f.Bakt. 7, 561. (Original communication in Archives Néerlandaises, II. 8, p. 190.)Google Scholar
Beijerinck, M. W. and Van Delden, A.. Über die Assimilation des freien Stickstoffes durch Bakterien. Centr. f. Bakt. 8, p. 3. (Original in Archives Néerl. II. 8, p. 319.)Google Scholar
Berthelot, M. Comptes rend. 101 (1885), 102 (1886), 104 (1887). An Epitome of all results in “Chimie végétale et agricole,” 1899.Google Scholar
Frank, B. Landw. Jahrbiicher, 1888, p. 421.Google Scholar
Freodenreich, , Ed. von. Centr. f. Bakt. 9, p. 514.Google Scholar
Vogel, Gerlach u.. Cen.tr. f. Bakt. 8, p. 669; 9, p. 817; 10, p. 636.Google Scholar
Hall, A. D. On the Increase of Nitrogen in land allowed to run wild. Journ. Agric. Science, Vol. 1, p. 241.CrossRefGoogle Scholar
Keutner, . Extract. Centr. f. Bakt. 13, p. 554.Google Scholar
Koch, A. Lecture before Economic Society of Saxony, Dec. 1903. Article in Lafar's Handbuch der technischen Mykologie, 2nd Ed., 1904.Google Scholar
Kossowitsch, P. Bot. Ztg. 52, p. 97, 1894.Google Scholar
Schneidewind, Krüoer u. Landw. Jahrb. 29, p. 771, 1900.Google Scholar
Laurent, Schloesing et Comptes rend. 113, 1891; 115, 1892.Google Scholar
Winogradsky, M. S. Recherches sur l'assimilation de l'azoto libre de l'atmosphère par les microbes. Archives des Sciences biologiques (St Petersburg), 1894, 3, p. 297. Clostridium pasteurianum, seine Morphologie und seine Eigenschaften als Buttersaureferment. Centr. f. Bakt. 9, p. 43.Google Scholar