Excessive soil acidity is a limiting factor that affects the effectiveness of agricultural practices on many farms in Croatia. As a solution, liming is implemented, which can have both positive (depending on the origin of the liming materials) and negative implications for the environment, especially regarding the accumulation of heavy metals in the soil. The aim of the research was to determine the six years impact of application of increasing doses of different liming materials on the accumulated content of chromium, copper, nickel, lead, zinc, and cobalt in the soil. The study included 20 archived soil samples (from 5 treatments and 4 replication) collected in 2020 from a stationary field experiment located in central Croatia (Popovača site) after six years of applying increasing doses (0, 2, and 4 t/ha) of various liming materials (agricultural lime and hydrated lime). The content of Cr, Cu, Ni, Pb, Zn, and Co was determined using pXRF (portable X-ray fluorescence) method, soil reaction (pH value) was assessed by potentiometric method, and the mobile aluminium content was determined by the Sokolov method. After six years of liming materials application, the soil pH significantly increased from 4.53 to 5.85, while the mobile aluminium content simultaneously decreased from 2.28 mg/100 g soil to 0.23 mg/100 g soil. The content of observed metals in the soil did not significantly vary compared to the control and ranged as follows: 99.3 mg Cr/kg to 115.5 mg Cr/kg; 18.8 mg Cu/kg to 23.3 mg Cu/kg; 31.8 mg Ni/kg to 40.8 mg Ni/kg; 18.8 mg Pb/kg to 20.8 mg Pb/kg; 81.5 mg Zn/kg to 87.0 mg Zn/kg; 28.4 mg Co/kg to 23.1 mg Co/kg. The total six-year application of agricultural lime and hydrated lime in the range of 10-30 t/ha could contribute to minimal amounts of accumulated metals in the soil (0.027-0.082 mg Cr/kg; 0.006-0.018 mg Ni/kg; 0.008 – 0.024 mg Cu/kg; 0.014 – 0.041 mg Pb/kg; 0.024-0.071 mg Zn/kg), and the results indicate that liming materials application led to a relative reduction in lead, zinc, and cobalt content in the soil. The soil in investigation location is contaminated with chromium, while parts of the experimental area under control treatment and treatment with a total application of 10 t/ha of agricultural lime are contaminated with nickel and zinc.