We analyzed scaling behaviour of conductivity spectra of two fragile glass melts 2Ca(NO3)(2)center dot 3KNO(3) (CKN) and 2Ca(NO3)(2)center dot 3RbNO(3) (CRN) below and above their glass transition temperature (T-G). Spectra were described in terms of power law. Conductivity isotherms of these systems were found to follow time temperature superposition principle (TTSP) below and above T-G and can be scaled to a master curve using hopping frequency as scaling factor. However, for both the systems, a deviation from TTSP was discerned in the vicinity of T-G. We also observed, for both CKN and CRN, a change in exponent factor of the power law and in number density of the mobile charge carriers around T-G. The experimental data were also analyzed in terms of electric modulus mechanism. Both, conductivity and modulus formulism revealed the similar trend of TTSP behaviour. The deviation from TTSP near T-G has been correlated with the changes observed in these two quantities. Further, it has been proposed that the magnitude of change in dispersion of conductivity spectra is directly related with the decoupling and fragility of the glass melt systems. (C) 2012 Elsevier B.V. All rights reserved.