Recent experimental and theoretical studies show that energy efficiency,which measures the amount of information processed by a neuron with per unit of energy consumption,plays an important role in the evolution of neurai systems.Here we calculate the information rates and energy efficiencies of the Hodgkin-Huxley(HH)neuron model at different temperatures in a noisy environment.It is found that both the information rate and energy efficiency are maximized by certain temperatures.Though the information rate and energy efficiency cannot be maximized simultaneously,the neuron holds a high information processing capacity at the temperature corresponding to the maximal energy efficiency.Our results support the idea that the energy efficiency is a selective pressure that influences the evolution of nervous systems. Recent experimental and theoretical studies show that energy efficiency, which measures the amount of information processed by a neuron with per unit of energy consumption, plays an important role in the evolution of neurai systems. Here we calculate the information rates and energy efficiencies of the Hodgkin Huxley (HH) neuron model at different temperatures in a noisy environment. It is found that both both the information rate and energy efficiency are maximized by certain temperatures. Hough the information rate and energy efficiency can not be maximized simultaneously, the neuron holds a high information processing capacity at the temperature corresponding to the maximal energy efficiency. Our results support the idea that the energy efficiency is a selective pressure that influences the evolution of nervous systems.