Vertical fluxes of total mass (FMass), particulate organic carbon (FPOC), particulate inorganic carbon (FPIC), 210Pb (FPb-210) and 210Po (FPo-210) were determined by sediment traps deployed at two depths, 2000 m and 3500 m, at SEATS (South East Asian Time-series Study, 116°00°E, 18°00°N) in the northern South China Sea during June 2008~ July 2009. The FMass ranges from 12.2 to 551.1 mg/m2/d and from 89.3 to 250.8 mg/m2/d, at 2000 m and 3500 m, respectively, and shows seasonal and inter-annul variations. Insignificant difference of the FMass between the two depths was found, indicating the minor role of horizontal process in particulate transport. The FPb-210 ranges from 4.5 to 105.2 dpm/m2/d and is in phase with the FMass, implying the scavenging of 210Pb is controlled by the vertical flux of particulate materials. The FPo-210 ranges from 2.6 to 309.3 dpm/m2/d and, unlike 210Pb, shows a poor correlation with FMass. Compared with the removal fluxes predicted from the disequilibria of parent-daughter radionuclides, the FPb-210 is comparable with whereas the FPo-210 is significantly lower than the modeled values. The discrepancy of the FPo-210 is attributed to the invalid assumption of steady-state in the mass balance of the scavenging model. A strong correlation of the flux and source ratio of 210Pb and the particulate organic carbon flux was found, which gives a relationship of FPOC (ug/cm2/y) = 0.2 + 472.9 (F/P)Pb-210. The advective transport from the Western Philippine Sea should be considered in 210Pb budgeting, which contributes ~60 % of 210Pb in the deep basin of the South China Sea.