The influence of temperature on the forward and reverse nonradiative excitation energy transport (NEET) was studied in the system of rhodamine 6G (R6G, donor) and rhodamine B (RB, acceptor) in glycerol using steady-state techniques. It was found that the reverse energy transfer effectiveness decreases with the increase in temperature. It is shown that the temperature quenching is responsible for this regularity and other effects, like the increase in the orientation factor and the thermochromic shifts of the spectra in the system investigated are of minor importance.