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EFFECT OF IMPACT STRESS ON MICROBIAL RECOVERY ON AN AGAR SURFACE
Citation:
Steward, S., S. Grinshpun, K. Willeke, S. Terzieva, V. Ulevicius, AND J. Donnelly. EFFECT OF IMPACT STRESS ON MICROBIAL RECOVERY ON AN AGAR SURFACE. U.S. Environmental Protection Agency, Washington, D.C., EPA/600/J-95/455, 1995.
Description:
Microbial stress due to the impaction of microorganisms onto an agar collection surface was studied experimentally. he relative recovery rates of aerosolized Pseudomonas fluorescens and Micrococcus luteus were determined as a function of the impaction velocity by using a moving agar slide impactor operating over a flow rate range from 3.8 to 40 liters/min yielding impaction velocities from 24 to 250 m/s. s a reference, the sixth stage of the Andersen Six-Stage Viable Particle Sizing Sampler was used at its operating flow rate of 28.3 liters/min (24 m/s). t a collection efficiency of close to 100% for the agar slide impactor, an increase in sampling flow rate and, therefore, in impaction velocity produced a significant decline in the percentage of microorganisms recovered. Conversely, when the collection efficiency was less than 100%, greater recovery and lower injury rates occurred. he highest relative rate of recovery (approximately 51% for P. fluorescens and approximately 62% for M. luteus) was obtained on the complete (Trypticase soy agar) medium at 40 and 24 m/s (6.4 and 3.8 liters/min), respectively M. luteus demonstrated less damage than M. luteus demonstrated less damage than P. fluorescens suggesting the hardy nature of the gram-positive strain versus that of the gram-negative microorganism. omparison of results from the agar slide and Andersen impactors at the same sampling velocity showed that recovery and injury due to collection depends not only on the magnitude of the impaction velocity but also on the degree to which the microorganisms may be embedded in the collection medium. mpaction velocity, characterized by the sampler's operating flow rate and inlet design, is unique for each sampling device. he resulting impaction stress influences the recovery and injury of collected microorganisms and ultimately affects the measurement data for colony enumeration. his can be one of the most important reasons for variations that occur when using different sampling devices to measure bioaerosols from the same environment.