Grapevine (Vitis vinifera L.) is the most widespread and the oldest cultivated plant in the world. With its total production surpasses all other fruit species. The history of grapevine growing in Croatia is known far in the past (about 400 years BC) too, because here is optimal geographic position with very favorable climatic conditions for growing vines and producing high quality wines (over 90% of the grapes is processed into wine). Croatia is divided into two wine-growing regions: the Primorje region (with 5 subregions) and the Continental region (with 7 subregions, including subregion Plešivica, where research has been conducted). Soil reaction is one of the basic soil fertility indicators because it significantly affects the solubility and availability of nutrients to plants. Availability and uptake of nutrients are reduced in acidic soils as well as in soils with too much lime. Grapevine nutrition is very important measure in vineyard management because it affects the formation of clusters, grape and wine quality, and depends on biotic and abiotic factors. So, present research has been carried out in order to gain a better understanding of potassium, calcium and magnesium dynamics in vine leaves and mineral composition of must on acidic and alkaline soils. The research was carried out in the period 2009-2011 in the area of Plešivica vine subregion. Based on preliminary research (physico-chemical soil properties), two sites were selected. At the site of Rečki gaj soil has a very acidic to acidic reaction (pHKCl 3.545.01), and at Borička site soil has alkaline reaction (pHKCl 7.01-7.41). The investigated cultivar was Sauvignon Blanc on the Berlanderieri x Riparia rootstock (SO4). At each site, 9 experimental plots were formed in a regular squared layout of 3 x 3 plots and each plot included 2 rows of 20 vines (total of 40 vines per plot). For the purpose of research of the dynamics of potassium, calcium and magnesium content as well as their mutual relationship in leaves and must, from each plot leaves samples were colected three times in each vegetation year in the phenophases of flowering, verasion and harvest. Content of potassium, calcium and magnesium in vine leaves samples (for all 3 samplings) were determined, while in must the mineral composition, content of sugar and total acids were determined. Soil samples were colected every year at the beginning of vegetation (average soil samples in two depths (0-30 cm and 30-60 cm), at each experimental plot on both sites). By soil samples analysis, the basic chemical soil properties and the total content of potassium, calcium and magnesium were determined. In addition to the above mentioned analysis, at the Rečki gaj site, the content of replaceable aluminum was determined, while the content of total carbonate (% CaCO3) and content of physiologically active lime (% CaO) was determined at Borička site. The results of the chemical properties showed no significant deviations in the soil reaction, content of mobile aluminum on acidic soil and the physiologically active lime on alkaline soil as well as the potassium, calcium and magnesium content in the researched period. The effect of climatic factors (temperature and precipitation) was calculated on the basis of the data from the Jastrebarsko meteorological station located within the Jastrebarsko Forestry Institute. The data was obtained by the Croatian Meteorological and Hydrological Service. The results of the leaves mineral composition, in all three years of research, have shown a significant effect of the soil reaction, phenophase and years of research on the leaves content of potassium, calcium and magnesium. Higher vine leaves potassium content was determined on acidic soil (1.15-1.28 % K/DW) compared to alkaline soil (0.98-1.14 % K/DW), while higher calcium (2.54-5.11 % Ca/DW) and magnesium content (0.45-0.50 % Mg/DW) was determined on alkaline soil during all years of research compared to acidic soil (2.27-4.36 % Ca/DW and 0.27-0.32 % Mg/DW, respectively). Higher potassium amount on acidic soil can be associated to antagonistic interaction of calcium and potassium on alkaline soil, resulting in low potassium uptake on alkaline soil. Determined differences in calcium and magnesium content on acidic and alkaline soil, can be associated with different climatic conditions during the research and their effect on the uptake of calcium and magnesium. Despite the differences in the determined vine leaves content of potassium and magnesium on the acidic and alkaline soil, potassium and magnesium values, at all phases of development and in all three years of research, were within the limits of optimal values (0.71-1.71% K/DW and 0.17-0.60% Mg/DW), while calcium values (5.11-6.09 % Ca/DW) in 2009 in verasion are significantly higher than optimal (2.20-4.50 % Ca/DW). Soil reaction and phenophase of growth and development had a significant effect on the K/(Ca+Mg) cationic ratio in leaves in all three years of research. Wider ratio of K/(Ca+Mg) in vine leaves in all years of research was determined on acidic soil (0.29-0.59) compared to alkaline soil (0.20-0.40). Determined K/(Ca+Mg) ratio by phenophases, regardless the soil reaction, is the widest in the flowering phenophase (0.31-1.02) and narrows to harvest (0.15-0.34) in all researched years. Inadequate cationic ratio, mostly, is result of antagonism between potassium and calcium than potassium and magnesium, and as well as adverse climatic conditions resulting in decreased calcium and magnesium uptake. During all three years of research, wider average K/Ca ratio in vine leaves was determined on acidic soil (0.31-0.67) compared to alkaline soil (0.22-0.48). In the researched period, wider average K/Mg ratio in vine leaves was determined on acidic soil (4.64-5.63) compared to alkaline soil (2.36-2.47). The widest ratio of K/Ca and K/Mg in leaves was determined in the flowering phenophase in all three years of research, regardless soil reaction, that narrows towards to the end of the vegetation. The results of must mineral composition indicate that determined potassium, calcium and magnesium values are affected by the soil reaction, and in certain years, by climatic conditions too. By detailed analysis of must mineral composition, it was found that the must calcium and magnesium contents in all three years of research were higher in alkaline than acidic soil. Unlike calcium and magnesium, the must potassium content was higher on alkaline soil in 2009, while in the other two researched years higher values were determined in acidic soil. On the must sugar content, in all three years of research, no significant effect of soil reaction was determined, but significant effect of the year and the interaction effect of soil reaction and the year were determined. Higher must sugar content in 2009 and 2010 was determined in alkaline soil (27.0 and 23.1 % Brix, respectively) compared to acidic soil, while higher must sugar content (27.7 % Brix) was determined in 2011. in acidic soil. The highest must sugar content, regardless soil reaction, in 2009 (25.2 % Brix in acidic soil and 27.0 in alkaline soil), and the lowest in 2010 (21.6 % Brix in acidic soil and 23.1 in alkaline soil) which can be explained by climatic conditions in individual years. Namely, higher sugar content was determined in the year with the optimal amount of precipitation (year 2009) compared to the extremely rainy year (year 2010). Climatic conditions were significantly different in 2011, which was extremely hot and extremely dry, when determined must sugar content was significantly higher in acidic soil (27.7 % Brix) compared to alkaline soil (22,9 % Brix). Higher must sugar content in acidic soil in 2011 is the result of higher leaves potassium content in acidic soil compared to alkaline soil, which is in agreement with the fact that potassium has a positive effect on the higher accumulation of carbohydrates (sugars). In all three researched years, higher must total acid content were determined in acidic soil (5.08-7.03 g L-1) compared to alkaline soil (4.62-6.37 g L-1). Based on the results obtained, it can be concluded that the effect of soil reaction and phenophase on the content and dynamics of potassium, calcium and magnesium and their mutual relationship in vine leaves is significant, while the chemical properties and mineral composition of must are more affected by climatic conditions, except the total acid content which are regularly higher in acidic soil.