This paper has described a geochemical testing approach to evaluate the level of soil contamination caused by heavy metals and POPs (PAh, PCB and hCB) in the coastal area of the northern Baltic Sea in the Västernorrland area. The present work can be perceived as a continuation to soil testing aimed at environmental, geotechnical and geochemical assessment. From a geochemical point of view, the present approach makes more complete trials of binder ration allowing the analysis of their impact on the leaching process. Several important contributions from this study can be explicitly recounted. They have shown the assessed leaching of heavy metals and POPs (PAh, PCB and hCB) from soil stabilized by cement/slag binders in various ratios. Firstly, since adding binders (Portland cement and GGBFS) inherently involves variations in soil leaching due to changes in the structure of the stabilized specimens, the resulting disparity in leaching naturally estimates exhibit coherence between the binder ratio and its effects on the removal of heavy metals from soil samples. Thus, the comparison was made against the two mixes (cement/slag in 30/70% and high/low binder with low/high water ratio). The results showed that 70% slag decreases the leaching of heavy metals and POPs. Secondly, the evaluation of min/max content of pollutants (µg/l) for heavy metals (As, Ba, Pb, Cd, Co, Cu, Cr, hg, Mn, Mo, ni, S, V, Zn) as well as the hydrocarbon fraction index in excess water that are ambiguous when considering only the chemical content are resolved through the inclusion of information on the binder ratio in soil samples. Thirdly, a novel approach to the estimation of different blends of binding agents (30/70, 50/50, 70/30) and binder amounts (120 and 150 kg/m3) is developed based on testing stabilized soil samples of the tested specimens using modified surface leaching and shake tests. The soil tests were performed using technical standards of SGI aimed at analyzing the effects of binder combinations on the leaching of toxic chemicals and heavy metals. next, a method for the direct testing of soil properties adapted from SIS standards and modified according to real-time soil conditions is applied in the workflow by the existing tools. In support of the existing similar studies using technical standard approaches of SIS, the results from this study have been documented qualitatively and quantitatively as a series of graphs using soil samples dredged from the study area. Lastly, a method for measuring the equilibrium concentrations of DOC and heavy met- als at L/S 10 (μg/l) has been designed and implemented using the SIS standards of shake experiments to compare the level of DOC in groundwater used as a leachate. The results Lindh and Lemenkova 2022 / Gospodarka Surowcami Mineralnymi – Mineral Resources Management 38(2), 147–168 165 of leached content were measured and estimated at L/S 10 in the upscaling experiments using 4 samples for PAh, PCB and various fractions of hydrocarbons: C10–C40, C10–C12, C12–C16 and C35–C40. The shake tests have shown the decrease in the leaching of heavy metals and POP substances from soil samples stabilized by a higher amount of slag added as a binder. A binder blend with 30% cement and 70% of GGBFS showed the best performance. Importantly, the empirical advantage of testing the amount and ratio of stabilizing agents in soil samples has been shown to have practical value both in the construction industry as well as in environmental assessment. The latter especially concerns the comparative analysis of the lowest and highest contamination content in the excess water (heavy metals, PAh, PCB, PhB, aliphatic compounds) after the addition of binder for soil stabilization. Similarly, the proposed use of binders in various ratios also has the potential to support effective soil stabilization in case of weak soil, e.g. silt or clay. Waste products, especially of metallurgical origin, which are safe under given conditions, may become a source of the environmental pollution, e.g. when the ph is changing. This highlights the actuality of the environmental assessment of soil pollution, as presented in this study. More generally, the proposed approach of changing stabilizing agents contributes to the practical development of geotechnical methods of improving soil properties and structure, as needed for the construction industry.