Abstract
Total mass-to-light ratio M/L_B for S0 - Irr galaxies, where M is the dynamical mass within the optical radius R_25, increases systematically with (B-V)_0 color, but slower than that is predicted by stellar population evolution models. It shows that the mean ratio between dark halo and stellar masses is higher for more "blue" galaxies. However some galaxies don't follow this general trend. The properties of galaxies with extremely high and extremely low values of M/L_B ratios are compared, and different factors, accounting for the extremes, are analyzed. The conclusion is that in some cases too high or too low M/L_B ratios are associated with observational errors, in other cases - with non-typical dark halo mass fraction, or with peculiarities of disc stellar population. Particularly, discs of some galaxies with low M/L_B ratios turn out to be unusually "light" for their luminosity and colors, which indicates a substantial deficit of low mass stars as the most probable cause of low M/L_B.
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