The authors study how leptogenesis can be implemented in the seesaw models with A4 flavor symmetry, which lead to the tri-bimaximal neutrino mixing matrix. By considering renormalzation group evolution from a high energy scale of flavor symmetry breaking (the GUT scale is assumed) to the low energy scale of relevant phenomena, the off-diagonal terms in a combination of Dirac Yukawa-coupling matrix can be generated. As a result, the flavored leptogenesis is successfully realized. The authors also investigate how the effective light neutrino mass l(mee)| associated with neutrinoless double beta decay can be predicted by imposing the experimental data on the low energy observables. The authors find a link between the leptogenesis and the neutrinoless double beta decay characterized by I(mee)I tftrough a high energy CP phase fi, which is correlated with the low energy Majorana CP phases. It is shown that the predictions of I(mee)I for some fixed parameters of the high energy physics can be constrained by the current observation of baryon asymmetry.