Sorption characteristics of ion exchange resins 001×7,005×8,D72 regarding rare earth metals(REM) during extraction from barren solution of uranium sorption in dynamic conditions were investigated. It was identified that D72 resin capacity on analyzed REM was 2.46 mg cm-3 after passing 220 BV(bed volume) of initial solution with 95% recovery of element of REM with the lowest affinity. Researches on REM desorption in dynamic conditions from investigated ion exchange resins by solution of 1.7 mol·L-1HNO3 and 8.0 mol·L-1NH4NO3 with 0.2 mol·L-1 HNO3 passing were carried out. It was identified that using desorption solution based on ammonium nitrate allows to achieve acceptable recovery degree of REM from the resin. The possibility of organization of a circulating desorption solution system increases the perspectives of nitrate ammonium solution usage. Sorption characteristics of ion exchange resins 001 × 7,005 × 8, D72 regarding rare earth metals (REM) during extraction from barren solution of uranium sorption in dynamic conditions were. It was identified that D72 resin capacity on been analyzed REM was 2.46 mg cm-3 after passing 220 BV (bed volume) of initial solution with 95% recovery of element of REM with the lowest affinity. Researches on REM desorption in dynamic conditions from ion exchange resins by solution of 1.7 mol·L-1HNO3 and 8.0 mol·L -1NH4NO3 with 0.2 mol·L-1 HNO3 passing were carried out. It was identified that using desorption solution based on ammonium nitrate allows to achieve acceptable recovery degree of REM from the resin. The possibility of organization of a circulating desorption solution system increases the perspectives of nitrate ammonium solution usage.