. The Journal of laboratory and clinical medicine . Fig. 2.—B. Coli in humid atmosphere (water) magnified 8% diameters. growth of a large number of bacteria when subjected to varying conditionsof atmospheric moisture and more generally to arrive at the numerical rela-tions of the rates of growth of various microorganisms under varying watervapor tensions. It is also possible to prepare solutions which have fixed tensions of variousgases such as carbon dioxide, ammonia, hydrogen sulphide, methylamin andthe like to which cultures may be subjected in a similar manner. Suchexperiments are beyond t
. The Journal of laboratory and clinical medicine . Fig. 2.—B. Coli in humid atmosphere (water) magnified 8% diameters. growth of a large number of bacteria when subjected to varying conditionsof atmospheric moisture and more generally to arrive at the numerical rela-tions of the rates of growth of various microorganisms under varying watervapor tensions. It is also possible to prepare solutions which have fixed tensions of variousgases such as carbon dioxide, ammonia, hydrogen sulphide, methylamin andthe like to which cultures may be subjected in a similar manner. Suchexperiments are beyond the scope of the present paper and consequently willbe reserved for future publication. ATMOSPHERIC ilOISTURE REQUIREMENTS OF BACTERIA 559. Fig. S.—V). Coli (inoculation identical with Fig. 2) in partially dry atmosphere (one-half saturated cal-cium chloride) magnified 8% diameters.
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