Heavy metals (HM) migration from the industrial wastes into grey forest and turft-padsol soils has been under research.Heavy metals technogenic migration in the "wastes-soil" system represents unstable,dynamic process.Heavy metals technogenic dispersion flow with the rigid special connection with its source solid industrial wastes is formed in the soil section (profile) and the observed technogenic HM anomaly is characterized by the dynamic,instable parameters ofpolymetal pollution.HM redistribution in the soil profile is of the clearly impulsive character.HM migration fraught with the salt solutions and slightly soluble hydroxides is stated to be of the similar character in the acid oxidized medium.The three principle stages of technogenic HM transformation in "wastes-soil" system are 1) HM leaching; 2) transformation connected with HM deponing and ion-exchange by the soil substance; 3) conversion caused by HM transportation in the filtration flow.Heavy metals technogenic transformation peculiarities in "wastes-soil" system is defined by 1) complex formation; 2) HM highly intensive migration; 3) high humus horizon intrusion.Zink,lead,copper and nickel are claimed to possess the highest migration intrusion in the acid oxidized medium.The following HM succession from wastes is fixed:Pb > Cu ≥ Zn ≥ Ni > Mn > Cr ≥ Fe > Co.The greatest contribution into the polymetal soil pollution is made by the elements possessing the highest relative atom mass and various migration types.The main factor causing HM leaching is the medium reaction:in acid and slightly acid medium industrial wastes is able to create impact,collision technogenic load on the polymetal soil type.Under the polymetal pollution conditions heavy metals solution and migration capacity is higher than of separate HM compounds that is typical of lead.Soil horizon polymetal pollution expands the upper half-meter soil level threatening the ground waters pollution.Consequently humus accumulative horizon assessment as HM natural barrier must be based not only an contain soils sorption properties concerning toxicants but heavy metals migration processes under the polymetal pollution conditions according to the stated migration successions should be also taken into account.