Children and adolescents are vulnerable to heavy metal exposure, with a number of adverse health effects. For the general population, food consumption is considered one of the predominant exposure pathways for toxic heavy metals, like mercury and arsenic in seafood and inorganic arsenic in rice. Although the Health Promotion Administration (HPA) has conducted several times the Nutrition and Health Surveys in Taiwan (NAHSIT) in the past years, there has been a growing concern on the relationship between dietary intake and human biomarker metal levels. Therefore, the objective of this study was set to discern the associations of dietary intake and blood and urinary metal levels of children and adolescents. From January 2018 to May 2018, in total, 324 participants, aged 4 – 14 years old, were recruited from the Taiwan Birth Panel Study II, which was conducted during 2009 – 2012. All participants completed questionnaires for the collection of information on demographic characteristics, living environment etc. Dietary intake by food category was assessed through Food Frequency Questionnaire administration. Urine and whole blood samples were collected from all participants for metal analysis using ICP-MS. Urine samples were analyzed for As, Cd, Pb and Hg, and whole blood samples were analyzed for As, Cd, Pb, Hg, Mn, Zn, Mo, Sb, Cs and W. The highest concentration of metal in urine was found for arsenic with a mean of 109.5 mug/g creatinine, followed by mercury and lead with means of 1.84 and 1.03 mug/g creatinine, respectively, and by cadmium with a mean of 0.37 mug/g creatinine. On the other hand, the highest concentration of metal in blood was found for zinc with a mean of 4,278 mug/L, followed by manganese, lead, mercury with means of 19.8、7.78、6.36 mug/L, respectively, and by arsenic and cesium, with means of 3.37、2.61 mug/L, respectively. The means of molybdenum, antimony, cadmium and tungsten levels in blood were 0.72、0.32、0.15、0.05 mug/L, respectively. Results of multivariate linear regression suggested that there were significantly associations of dietary intake with blood and urinary metal levels of children and adolescents. Positive correlation was found between rice consumption and blood arsenic level (p=0.002). Seafood consumption has strongly positive correlations with urinary arsenic level (p=0.001), blood arsenic level (p<0.001) and blood mercury level (p<0.001), respectively. Furthermore, taking nutritional supplements may also affect the distributions of metal levels in urine and blood. We found an inverse correlation between taking calcium supplements and urinary cadmium level (p=0.001). Meanwhile, negative correlations were also present between taking Chinese herbal medicine and blood cadmium, lead and mercury levels with p=0.002, p=0.016 and p=0.028, respectively. Nowadays, with relatively low background levels of metal exposure, dietary intake and taking nutritional supplements have been emerging as one of the prominent pathways for human metal exposure. Future studies are warranted to illustrate potential adverse health impacts, if any, through dietary metal intake.