Ecological Engineering & Environmental Technology (Oct 2024)
Evaluation of Soil Potassium Using Miniaturized Electrochemical Sensors
Abstract
Farmers aim to increase the yield of their crops by reducing their expenses. This prompts farmers to resort to smart farming practices. These practices facilitate the measurement and detection of nutrients in soil to maximize harvest with a low-cost sensor employing electrochemical and optical techniques. Potassium is a crucial macronutrient for the growth of plants. The excess or need for potassium in the soil can pose a risk to plants and the environment. Therefore, it is imperative to conduct soil monitoring to determine the quantity of soil fertilizer. ISFETs are among the most affordable and miniaturized sensors specific to one target ion. Although it is not time-consuming and requires an immediate response, the ISFET requires special calibration and sample preparation. This study tested ISFET on Moroccan soil potassium using a new technique of minimal sample preparation without needing a laboratory machine to extract soil using distilled water. The results indicate that the microsensor ISFET provided accurate results on solutions prepared in the laboratory with a correlation factor of 90%, and R² greater than 80% when estimating potassium levels in soil extracts. ISFET can therefore be used as an alternative method for potassium estimation.
Keywords
