The increased presence of phosphorus in natural waters causes eutrophication, which is a growing problem for water supply, especially in the case of natural and artificial lakes (reservoirs). Eutrophication can be slowed down by reducing the input of this element, primarily by treatment of waste water before their discharge into recipients. Adsorption is one of the most effective and economical methods for removing phosphorus from water, but only if adsorbents with high adsorption capacity and low cost are used. In this work, composite adsorbents were synthesized using the cheap clay mineral sepiolite as a carrier for nanoparticles of lanthanum oxy-hydroxide, which has a high capacity for phosphate ions. The capacities of the composite adsorbent and the sample obtained by thermal treatment at 500°C were compared with the capacity of lanthanum hydroxide, at pH = 4 and pH = 8. The uncalcined sample had a higher capacity than the calcined one, and the capacity of this sample per unit mass of lanthanum was higher than the capacity of lanthanum hydroxide.