The traditional method for measuring sublethal injury in bacteria involves
differential plating of injured cells on selective and nonselective media.
Image analysis of the size of colonies from injured Listeria monocytogenes
cells plated on nonselective media only was investigated as an alternative.
With colonies from healthy cells, colony area was normally distributed, bu
t heat- and starvation-stressed cells produced colonies with areas that sho
wed a significant (p less than or equal to 0.05) skewness to the right. Alt
hough no relationship between sublethal injury and skewness was apparent, m
ean colony area was linearly (r(2) = 0.90) related to sublethal injury. Mea
n colony area can therefore be used as a measure of sublethal injury in Lis
teria monocytogenes, eliminating the need for differential plating in certa
in experiments examining this phenomenon. Since significantly different (P
less than or equal to 0.05) skewness was apparent between colonies derived
from heat-stressed cells as opposed to those derived from starvation-stress
ed cells, this method also provides further information on variations in in
jury between individual cells within stressed populations. Due to variation
s in colony size between strains, the method is limited in many cases to ap
plication in single-culture studies.