Research on the Use of Thermal Imaging as a Method for Detecting Fungal Growth in Apples

Abstract

This study assesses whether thermal imaging can be utilized for detecting and monitoring the level of plant product contamination with apples used as an example. The growth of Penicillium expansum, Botrytis cinerea, and Rhizopus stolonifer on apples contaminated with these fungi was investigated by measuring temperature changes using a thermovision camera. The results showed a significant relationship between the temperature of apples and the growth of microorganisms, as well as that the temperature changes occurred in two stages (temperature of the contaminated apples increased on the first day but then decreased). Significant differences were found between the temperature of the apples showing microbial growth and the noncontaminated control sample, which indicates that the thermal imaging technique has a potential application in microbial quality control. Automation of the production process and attempts on the intensification of production capacity have resulted in the need to improve individual stages of product quality control. Thermovision-based methods have a high potential in this field, as they represent an innovative and noninvasive alternative to conventional microbiological diagnostic methods.