Road-deposited sediment (RDS) is an important environmental medium for assessing contaminant levels in urban systems. Their atmospheric resuspension has significant implications for human health, and storm water transport can directly impact aquatic biota. Data from 20 RDS samples from Palolo Valley, Oahu, Hawaii, were fractionated into six grain-size classes and analyzed for Pb using a weak HCl (0.5 M) digestion. Data indicate significant Pb contamination in all samples. Median labile Pb concentration (n=120) was 170 mg/kg, with a range from 4 to 1750 mg/kg. The five sediment fractions <1000 μm had statistically similar Pb concentrations, but all were significantly greater than the coarsest fraction examined (1000-2000 μm). Silt plus clay (<63 μm) was the single most important mass component with 38% of the total sediment stored in this fraction. Mass of sediment <63 μm combined with a median labile Pb concentration of 222 mg/kg accounted for 51% of the total Pb load stored in road sediments. These findings are significant from an environmental management perspective, and these issues are discussed in light of street sweeper sediment grain size removal efficiencies.