Role of Chemotaxis in the Ecology of Denitrifiers |
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Authors: | Michael J. Kennedy and James G. Lawless |
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Abstract: | A modification of the Adler capillary assay was used to evaluate the chemotactic responses of several denitrifiers to nitrate and nitrite. Strong positive chemotaxis was observed to NO3− and NO2− by soil isolates of Pseudomonas aeruginosa, Pseudomonas fluorescens, and Pseudomonas stutzeri, with the peak response occurring at 10−3 M for both attractants. In addition, a strong chemoattraction to serine (peak response at 10−2 M), tryptone, and a soil extract, but not to NH4+, was observed for all denitrifiers tested. Chemotaxis was not dependent on a previous growth on NO3−, NO2−, or a soil extract, and the chemoattraction to NO3− occurred when the bacteria were grown aerobically or anaerobically. However, the best response to NO3− was usually observed when the cells were grown aerobically with 10 mM NO3− in the growth medium. Capillary tubes containing 10−3 M NO3− submerged into soil-water mixtures elicited a significant chemotactic response to NO3− by the indigenous soil microflora, the majority of which were Pseudomonas spp. A chemotactic strain of P. fluorescens also was shown to survive significantly better in aerobic and anaerobic soils than was a nonmotile strain of the same species. Both strains had equal growth rates in liquid cultures. Thus, chemotaxis may be one mechanism by which denitrifiers successfully compete for available NO3− and NO2−, and which may facilitate the survival of naturally occurring populations of some denitrifiers. |
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