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Appl Environ Microbiol. 1975 February; 29(2): 159-164
Copyright © 1975 American Society for Microbiology. All Rights Reserved.
Laboratory of Soil Microbiology, Department of Agronomy, Cornell University, Ithaco, New York 14850
ABSTRACT
A streptomycin-resistant mutant of Xanthomonas campestris was used to assess the persistence of the plant pathogen in soil and the changes in populations that might be important for its survival. In soil into which large numbers of the organism were introduced, a marked decline in its abundance occurred, but after about 1 week its population density reached a level of about 105 and did not continue to fall during the test period. No such marked decline was evident in sterile soil inoculated with X. campestris. The bacterium did not lose viability if starved for carbon or inorganic nitrogen. Although abundant in soil, the numbers of propagules capable of producing antibiotics or lytic enzymes active against X. campestris did not increase coincident with the pathogen's decline, and no increase in tartrate-extractable toxins was observed. Neither bdellovibrios nor bacteriophages active against the xanthomonad were found in the soil, but a marked increase in the frequency of protozoa paralleled the phase of rapid diminution in the X. campestris population. In actidione-treated soil, in which protozoan activity was severely limited, the high cell density of the pathogen was maintained. On the basis of these data, it is concluded that predation by protozoa is responsible for the abrupt fall in frequency of the bacterium in natural soil.
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