The first part of this study was to evaluate the distributions of gallium and arsenic in rice grains and to quantify the other trace elements in the rice grains. Collected 29 paddy rice samples from selected origins, including 15 japonica, 3 indica and 11 colored rice. Each rice grain was fractionated into rice, husk, brown rice, bran and polished rice. Moisture and ash contents were determined and inductive coupled plasma-mass spectrometry (ICP-MS) was used to determine gallium and arsenic contents. The second part of this study, 69 commercial rice samples were purchased from local markets and the contents of gallium, arsenic and trace elements (strontium, cesium, cobalt and vanadium) in the samples were determined. The third part of this study was the hydroponic culture. Three varieties of rice (TCN1, TK9, TCSW2) were planted in different concentrations of gallium (1, 8 and 15 mg/L) to investigate the accumulation of gallium during grain filling stage. The results showed that the average moisture contents (11.02-13.67%) of rice grains were similar in each fraction. The trend of ash contents was husk (14.35%) > bran (9.12%) > paddy rice (4.76%) > brown rice (1.49%) > polished rice (0.70%). The trend of gallium contents was husk (1.431 mg/kg) > bran (1.079 mg/kg) > brown rice (0.144 mg/kg) > polished rice (0.074 mg/kg) while the bran (1.00 mg/kg) had the highest content of arsenic. In the 69 commercial rice samples, arsenic was detected in all of the samples and the contents in brown rice were significantly higher than polished rice. Cobalt and cesium were detected in one-third samples. The range of contents of arsenic, cobalt and cesium were 0.048-0.773,