In hydroponics, the pH of the nutrient solution influences the solubility and availability of essential nutrients. The optimal pH for plant nutrient uptake in many crop species is around 6.0. However, the impacts of precise pH management on plant nutrient uptake, crop yield, and the optimal pH range remain less clear. In this study, we investigated the effects of pH management range on plant nutrient uptake and the growth of hydroponic leafy vegetables. Within an indoor vertical farm, we grew lettuce (Lactuca sativa) 'Rex,' kale (Brassica oleracea var. sabellica) 'Red Russian,' and arugula (Eruca sativa) 'Astro' using deep water culture hydroponics at the air temperature of 22 °C under a photosynthetic photon flux density of 200 μmol∙m−2∙s−1 with a 24-h photoperiod. The experiment included six pH treatments: pH 6, 6±0.5, 6±1.0, 6±1.5, 6±2.0, and without pH control. Compared to managing pH at 6, maintaining pH within 6±1.0 had generally similar impacts on leaf number, leaf area, SPAD index, shoot and root fresh mass, and shoot and root dry mass in all three crops. However, when compared to managing pH at 6, maintaining pH at 6±1.5 or greater reduced leaf area (by 32-47% in lettuce, by 30-41% in kale, or by 56-65% in arugula) and shoot fresh mass (by 33-54% in lettuce, by 37-45% in kale, or by 48-64% in arugula). Furthermore, in comparison to managing pH at 6, maintaining pH at 6±1.5 or greater also decreased leaf number in lettuce by 3-5 leaves and in arugula by 13-15 leaves but increased the root fresh mass of lettuce by 26-43%. Our results suggest that maintaining pH within 6±1.0 can be effective in promoting optimal nutrient uptake and overall plant development in the context of hydroponic cultivation.