Sex hormones are a group of potent endocrine disruptors that can be released into agricultural soils and sediment via wastewater discharge and manure fertilization. Sorption represents a critical determinant for the transport potential and risks of sex hormones in the environment. Therefore, this study reviewed the sorption and desorption mechanisms of sex hormones in soil-and sedimentwater systems, and summarized the effects of various factors on sorption and desorption processes. A total of 359 set of sorption data were collected from the literature. Sex hormones were mostly described by the linear model. The sorption magnitudes (logK oc ) of estrogens, androgens, and progestins were in the range of 2.77-3.90, 2.55-4.18, and 2.61-4.39, respectively. The average logK oc values of the sex hormones were significantly correlated with their logK ow values (R 2 = 0.13, p < 0.05), while the R 2 values were much lower than those when fewer sex hormones were included for analysis. In addition, the K d values of most sex hormones were significantly correlated with the OC% of soils and sediment (R 2 = 0.16 -0.99, p < 0.05), but were insignificantly correlated with the particle size distribution and surface area. These results indicated that hydrophobic partitioning interaction and other specific interactions are responsible for sex hormone uptake in soil-and sediment-water systems. The sorption of sex hormones in soil-and sediment-water systems can also be affected by other environmental variables, including pH, temperature, and ionic strength. Future studies should focus on the coupled leaching-sorption processes in manure-water-soil systems under field-scale conditions.