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49 records were found.
Fred, E.B.; Waksman, S.A. (1928). Laboratory Manual of General Microbiology; with Special Reference to the Microorganisms of the Soil. v + 145 pp., 19 textfigs. New York & London; McGraw Hill Book Co. | |
Heukelekian, H.; Waksman, S.A. (1925). Carbon and nitrogen transformations in the decomposition of cellulose by filamentous fungi. Journal of Biological Chemistry 66: 323-342. | |
Tenney, F.G.; Waksman, S.A. (1929). Composition of natural organic materials and their decomposition in the soil. IV. The nature and rapidity of decomposition of the various organic complexes in different plant materials under aerobic conditions. Soil Science 28: 55-84. | |
Waksman, S.A. (1957). Species concept among the Actinomycetes with special reference to the genus Streptomyces. Bact. Rev. 21 (1): 29 pp. | |
Waksman, S.A. (1928). Methoden der Mikrobiologischen Bodenforschung. Botan. Zentralblatt N.F. 13: 126. | |
Waksman, S.A. (1930). Der gegenwärtige Stand der Bodenmi krobiologie und ihre Anwendung auf Bodenfruchtbarkeit und Pflanzenwachstum. 116 pp., 19 textfigs. Berlin & Vienna; Urban & Schwarzenberg. | |
Waksman, S.A. (1924). Influence of soil reaction upon the distribution of filamentous fungi in the soil. Ecology 5: 54-59. | |
Waksman, S.A. (1953). The biology of the Actinomycetes and their economic importance. Int. Union. Biol. Sci. Ser. B 14: 3-12. | |
Waksman, S.A. (1926). Die Zellulose und ihre Zersetzung durch Mikroorganismen in Boden. Internat. Agrar.-Techn. Rundschau N.F. 2: 811-823. | |
Waksman, S.A. (1926). Cellulose and its decomposition in the soil by microorganisms. Internat. Rev. Sci. and Pract. Agric. N.S. 4: 759-770. | |
Waksman, S.A. (1924). Influence of microorganisms upon the carbon-nitrogen ratio in the soil. Journ. Agric. Science 14: 555-562. | |
Waksman, S.A. (1929). Chemical and microbiological principles underlying the decomposition of green manures in the soil. Journ. Amer. Soc. Agron. 21: 1-18. | |
Waksman, S.A. (1918). Studies on the proteolytic enzymes of soil fungi and Actinomycetes. Journal of Bacteriology 3: 509-530. | |
Waksman, S.A. (1920). Studies tn the metabolism of Actinomycetes. III. Nitrogen metabolism. Journal of Bacteriology 5: 1-30. | |
Waksman, S.A. (1964). O klassifikatsii aktinomitsetov [On the classification of actinomycetes]. Mikrobiologiya 33 (6): 1078-1081. | |
Waksman, S.A. (1927). Principles of soil microbiology. xxiii + 897 pp. London; Ballière, Tindall & Cox. | |
Waksman, S.A. (1926). Cellulose and its decomposition in the soil by microorganisms. Proc. International Society Soil. Science 2: 293-304. | |
Waksman, S.A. (1916). Do fungi live and produce mycelium in the soil? Science N.S 44: 320-322. | |
Waksman, S.A. (1916). Soil fungi and their activities. Soil Science 2: 103-156, 5 tabs. | |
Waksman, S.A. (1917). Is there any fungus flora of the soil? Soil Science 3: 565-589. | |
Waksman, S.A. (1922). The influence of soil reaction upon the growth of Actinomycetes causing potato scab. Soil Science 14: 61-79. | |
Waksman, S.A. (1922). Microbiological analysis of soil as an index of soil fertility. 1. The mathematical interpretation of members of microorganisms in the soil. Soil Science 14: 81-101. | |
Waksman, S.A. (1922). The growth of fungi in the soil. Soil Science 14: 153-157. | |
Waksman, S.A. (1922). Microbiological analysis of soil as an index of soil fertility. 2. Methods of the study of numbers of microorganisms in the soil. Soil Science 14: 283-298. | |
Waksman, S.A. (1922). Microbiological analysis of soil as an index of soil fertility. 3. Influence of fertilization upon numbers of microorganisms in the soil. Soil Science 14: 321-346. | |
Waksman, S.A. (1926). On the origin and nature of the soil organic matter or soil “Humus” in the soil. V. The role of microorganisms in the formation of “Humus” in that soil. Soil Science 22: 421-436. | |
Waksman, S.A. (1928). Soil biology and biochemistry. Soil Science 25: 29-36. | |
Waksman, S.A. (1959). The Actinomycetes. Nature, Occurrence, and Activities I: ix + 327 pp., 64 figs, 2 diags, 41 graph. USA, Baltimore; Williams & Wilkins. | |
Waksman, S.A. (1950). The Actinomycetes – their Nature, Occurrence, Activities, and Importance. xviii + 230 pp., 29 figs, 9 graphs. USA, Massachusetts, Waltham; UK, London. | |
Waksman, S.A. (1961). The Actinomycetes. Vol.II. Classification, Identification and Description of Genera and Species II: ix + 363 pp., 66 figs. USA, Baltimore; UK, London; Williams & Wilkins; Baillère, Tindall & Co. | |
Waksman, S.A. (1928). Methoden der Mikrobiologischen Bodenforschung. in: Abderhalden, Handbuch Biol. Arbeitsmethoden Abt. 11, Teil 3 Heft 5: 715-864. | |
Waksman, S.A.; Bugie, E. (1943). Strain specificity and production of antibiotic substances. II. Aspergillus flavus-oryzae group. Proceedings of the Nat. Acad. Sci., Wash. 29: 282-288. | |
Waksman, S.A.; Curtis, R.E. (1918). The occurrence of Actinomycetes in the soil. Soil Science 6: 309-319. | |
Waksman, S.A.; Dubos, R. (1926). Microbiological analysis of soils as a index of soil fertility. X. The catatalytic power of the soil. Soil Science 22: 407-420. | |
Waksman, S.A.; Fred, E.B. (1922). A tentative outline of the plate method for determining the number of microorganisms in the soil. Soil Science 14: 27-28. | |
Waksman, S.A.; Joffe, J.S. (1920). Studies in the metabolism of Actinomycetes. IV. Changes in reaction as a result of the growth of Actinomycetes upon culture media. Journal of Bacteriology 5: 31-48. | |
Waksman, S.A.; Lechevalier, H.A. (1962). The Actinomycetes. Antibiotics of Actinomycetes III: vii + 430 pp., 7 graphs. USA, Baltimore; Williams & Wilkins. | |
Waksman, S.A.; Lomanitz, S. (1925). Contribution to the chemistry of decomposition of protein and aminoacids, by various groups of microorganisms. Journal of Agricultural Research 30: 263-281. | |
Waksman, S.A.; Skinner, C.E. (1926). Microorganisms concerned in decomposition of celluloses in the soils. Journal of Bacteriology 12 (1): 57-84. | |
Waksman, S.A.; Starkey, R.L. (1923). Partial sterilization of soil, microbiological activities and soil fertility. I. Soil Science 16 (3): 137-154. | |
Waksman, S.A.; Starkey, R.L. (1923). Partial sterilization of soil, microbiological activities and soil fertility. II. Soil Science 16 (3): 246-268. | |
Waksman, S.A.; Starkey, R.L. (1923). Partial sterilization of soil, microbiological activities and soil fertility. II [cont.]. Soil Science 16 (3): 343-35}S. | |
Waksman, S.A.; Starkey, R.L. (1924). Influence of organic matter upon the development of fungi, Actinomycetes and Bacteria in the soil. Soil Science 17 (5): 373-378. | |
Waksman, S.A.; Stevens, K.R. (1929). Processes involved in the decomposition of wood with reference to the chemical composition of fossilized wood. Journ. Amer. Chem. Soc. 51: 1187-1196. | |
Waksman, S.A.; Stevens, K.R. (1929). Contribution to the chemical composition of peat. V. The role of microorganisms in peat formation and decomposition. Soil Science 28 (4): 315-340. | |
Waksman, S.A.; Tenney, F.G. (1926). On the origin and nature of the soil organic matter or soil “Humus”. IV. The decomposition of the various ingredients of straw and alfalfa meal by mixed and pure culture of microorganisms. Soil Science 22: 395. | |
Waksman, S.A.; Tenney, F.G. (1928). Composition of natural organic materials and their decomposition in the soil. III. The influence of nature of plant upon the rapidity of its deconposition. Soil Science 26: 155-171. | |
Waksman, S.A.; Tenney, F.G.; Stevens, K.R. (1928). The role of microorganisms in the transformation of organic matter in forest soil. Ecology 9 (2): 126-144. | |
Waksman, S.A.; Wark, C.H.; Joffe, J.; Starkey, R.L. (1923). Oxidation of sulphur by microorganisms of black alkali soils. Journal of Agricultural Research 24: 297-305. |
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