Heavy metal contamination in ground dust presents potential environmental and human health threats. However, the heavy metal contamination status of ground dust in the vicinity of public point utilities remain poorly explored. Therefore, this study has been designed to analyze the heavy metal contaminations in the ground dust collected monthly near a public bronze sculpture in an urban campus of Nantong, China, using geo-accumulation indexes (Igeo), enrichment factors (EF), potential ecological risk indexes (RI), and health risks (non-carcinogenic risks-HI and carcinogenic risks-CR). This study revealed that the maximum Cr, Cu, Mn, Ni, Pb, and Zn concentrations in ground dust samples were 156.2, 708.8, 869.8, 140.8, 180.5, and 1089.7 mg kg-1 respectively in which the mean Cu and Zn concentrations were 9 and 7 times higher than the background level in soil. Temporally speaking, for the majority of heavy metals (with the exception of Ni), the high concentration seasons tend to mainly be the summer and autumn, as indicated by the higher Xlf and SIRM values during those seasons. It was observed that Cu and Zn exhibited significant enrichment (EF = 11.7 and 8.4, respectively), moderate to strong pollution (Igeo = 2.4 and 2.0, respectively), and moderate and low potential ecological risks (Eir = 45.6 and 6.6, respectively). The non-carcinogenic risks which adults exposed to the heavy metal concentrations suffered were found to be insignificant. However, the carcinogenic risks related to Ni (1.3E-04) had exceeded the acceptable level. Based on the obtained PCA and correlation analysis, the heavy metal concentrations in the ground dust of urban campuses could be related to public utilities, traffic-related exhaust sources, and industrial activities. This study’s findings demonstrated that urban public utilities require increased attention due to their significant enrichment, ecological risk factors, and the significant carcinogenic risks to the population.