In this study, analytical methods were developed for the determination of Rare Earth Elements by inductively coupled plasma -mass and -optical emission spectrometries (ICP-MS and ICP OES), in an asphalt sample. The analytical results were evaluated through the analysis of a rock certified reference material (GSP-1) and through the comparison of the results with the two techniques. Two different methods of acid leaching were employed for the asphalt sample treatment, with HNO3 or H2SO4, in order to simulate intensified acid rain effects. Additionally, the extraction of the sample with organic solvent and subsequent acid leaching was also evaluated to identify the origin (organic or inorganic) of REE in asphalt sample, concluding that they are present in the sample inorganic fraction. The obtained limits of detection ranged from 0.002 to 0.010 microgam L to the power of minus 1 for the leaching with HNO3 and from 0.001 to 0.014 microgram L to the power of 1 with H2SO4, by ICP-MS, and from 0.05 to 2.5 microgram L to the power of minus 1 with HNO3 and from 0.06 to 3.1 microgram L to the power of minus 1 with H2SO4, by ICP OES. The determinations were made with analytical curves with aqueous standards and Rh as internal standard. Moreover, the spectral interference by BaO on Eu was reduced, through the precipitation of Ba as BaSO4 when sulfuric acid was used for the asphalt sample leaching, decreasing about 94 percent the Ba concentration in relation to that measured in the leachate with HNO3. The concentrations of REE in the asphalt sample ranged from 0.47 to 65.6 microgran g to the power of minus 1, being the light rare earth elements (LREE) accounted for 83 percent of total REE on the asphalt investigated. Cerium was the most abundant REE in the asphalt leached, followed by Nd and La. The order of average concentrations of REE in the asphalt was, in descending order: Ce > Nd > La > Pr > Sm > Eu > Gd > Dy > Er > Yb > Ho > Tm > Lu.