To analyze how the furrow directions made by the azimuth of $90^{circ}-270^{circ}(N;90^{circ})$, $120^{circ}-300^{circ}(N;120^{circ});and;0^{circ}-180^{circ}(N;180^{circ})$ effect on the growth characteristics and yield of 2 and 3-year-old ginseng, both of $N;90^{circ};and;N;180^{circ}$ compared with$N;120^{circ}$ recommended as the standard practices for ginseng cultivation. $N;90^{circ}$ showed lower quantum and air temperature during forenoon, while it showed higher quantum and air temperature from 15:00 to 19:00 than that of $N;120^{circ}$. $N;180^{circ}$ showed high quantum and air temperature due to the distinct increase of sunlight penetrated from 9:00 to 11:00, and which were similar to that of$N;120^{circ}$ during afternoon. Stem length and leaf area in $N;90^{circ};and;N;180^{circ}$, respectively, were decreased more than that of$N;120^{circ}$, and those in $N;180^{circ}$ were decreased more distinctly than $N;90^{circ}$. Heat injury rate was decreased in $N;90^{circ}$, while it was increased distinctly in $N;180^{circ}$ that showed high quantum and air temperature, and which showed great variation according to the year. Yield of $N;180^{circ}$ was decreased more than that of$N;120^{circ}$ in 2004, the year when it was a relatively high air temperature during summer season, but which was increased more than that of$N;120^{circ}$ in 2005 showing a rotatively low air temperature.