This study was designed to compare the lipid components between wild and cultured snakehead, Channa argus. The lipid components of cultured snakehead were analyzed and compared with that of wild snakehead. In both edible portion and viscera, the lipid content in cultured, snakehead was higher than that in wild one. In the fatty acid composition of neutral lipid in edible portion, percentages of $C_{14:0},;C_{16:0},;C_{18:1},;C_{20:5},;C_{22:5};and;C_{22:6}$ in cultured snakehead were higher than those in wild one, while percentages of $C_{18:0},;C_{16:1},;C_{18:2},;C_{18:3},;C_{20:4};and;C_{22:4}$ lower. In the case of phospholipid in edible portion, percentages of $C_{16:0},;C_{18:1};and;C_{22:6}$ in cultured snakehead were higher than those in wild one, while percentages of $C_{16:1},;C_{18:2},;C_{18:3},;C_{20:4},;C_{22:4};and;C_{22:5}$ lower. The unsaturation (TUFA/TSFA) and w3 highly unsaturated fatty acid content (w3 HUFA) of neutral lipid in cultured snakehead were higher than those in wild one, while those of phospholipid lower. The essential fatty acid contents (TEFA) of both neutral and phospholipids in wild snakehead were higher than those in cultured one. In the ratio (A/B) of fatty- acid content (A) in cultured snakehead to that (B) in diet, the A/B ratios of $C_{18:2;w6},;C_{18:3;w3},;C_{20:5;w3};and;C_{22:6;w3}$ were 0.3 to 2.5 times, and it is considered to be related to the biosynthesis of polyenoic acids and growth rate of cultured snakehead.