Morphometric evaluation of the specific growth rate of Aspergillus niger grown in agar plates at high glucose levels

Development of surface grown cultures of Aspergillus niger no. 10 was studied at two experimental levels: (a) following the time course of the biomass density (X [=] mg cm -2 ) and fitting the data by the logistic expression, which yielded a macroscopic specific growth rate expressed as µ obs = (dX/Xdt)[1-(X/X max )] -1 ; and (b) measuring morphometric parameters like the specific elongation rate (k) of the germ tubes and their diameters (D h ), the colony rate of radial extension (u r ), and the mean length of distal hyphae (L av ) to estimate the specific growth rate with the following proposed expression: µ calc = u r ln2[L av ln(L av /D h )] -1 . Increases in the initial glucose concentration (10, 40, 70, 120, 200, and 300 g L -1 ) caused reductions in the specific growth rates, the elongation kinetics of the germ tubes, and the hyphal diameter, nevertheless, u r and X max presented parabolic behavior, showing their maxima in the interval of 90 to 120 g L -1 of glucose. The overall macroscopic effect of the tested concentrations of glucose on surface grown cultures of A. niger was to produce densely packed and slowly extending colonies, where changes in hyphal lengths and diameters were significant. There was good agreement between µ obs and µ calc values. Hence, this work validates a kinetic model based on morphometric data to estimate the specific growth rate of molds, obtained from dry weight data, using mold cultures grown in the same solid medium i.e., agar plates.