This study was conducted to measure methane ($CH_4$) and nitrous oxide ($N_2O$) emissions from the 6 month old litter stockpile used for korean native cattle (Hanwoo) from August 3, 2007 to October 4, 2007. Daily mean $CH_4$ emissions was peaked to 273.013 ${mu}g;m^{-2};s^{-1}$ (SE : ${pm}1.047{mu}g;m^{-2};s^{-1}$) on first day and then gradually decreased to 2.309 ${mu}g;m^{-2};s^{-1}$ (SE : ${pm}0.061{mu}g;m^{-2};s^{-1}$) at the end of this experiment. Daily mean $N_2O$ emissions was as little as 0.269 ${mu}g;m^{-2};s^{-1}$ (SE : ${pm}0.018{mu}g;m^{-2};s^{-1}$) on first day, but exponentially increased up to 3.569 ${mu}g;m^{-2};s^{-1}$ (SE : ${pm}0.454{mu}g;m^{-2};s^{-1}$) on 43rd day and then slowly decreased to 1.888 ${mu}g;m^{-2};s^{-1}$ (SE : ${pm}0.012{mu}g;m^{-2};s^{-1}$) at the end of this experiment. Carbon dioxide equivalent ($CO_2$-eq), calculated by global warming potentials of $CH_4$ or $N_2O$, of $CH_4$ on first day occupied approximately 99% of sum of $CO_2$-eq of $CH_4$ and $N_2O$. Methane emissions decreased and $N_2O$ emissions increased so that $CO_2$-eq ratio of $CH_4$ to $N_2O$ was 50:50 on 34th day. The effect of $N_2O$ on the ratio was increase thereafter. The ratio of daily mean $CH_4$ and $N_2O$ emissions to daily error of the mean was calculated to find daily fluctuation of $CH_4$ and $N_2O$ emissions. The ratio of $CH_4$ was less than 1.0% till 11th day but increased to 10.9% on 57th day. The ratio of $N_2O$ (0.4%~51.0%) was higher than that of $CH_4$, showing high in early stage and then gradually decrease, which was different from the pattern of $CH_4$. The ratio of daily mean emissions to daily error of the mean was little in case of active $CH_4$ or $N_2O$ generation period, which would be caused by the temporal and spatial heterogeneity of composting process. Hence more air supply on early stage to decrease $CH_4$ generation and proper turning to reduce spatial heterogeneity are needed to mitigate greenhouse gas emissions.