Abstract
Sweet potatoes are a substantial source of nutrition and can be added to processed foods in the form of paste. The moisture and starch contents of these potatoes affect the physicochemical properties of sweet potato paste. In this study, the changes in the moisture, starch, and α-amylase content of sweet potatoes were measured for eight weeks after harvest. Using nondestructive near-infrared analyses and chemometric models, the moisture and starch contents were predicted. The partial least squares (PLS) method was used for prediction, while linear discriminant analysis (LDA) was used for discrimination. To increase the accuracy of the model, the near-infrared spectrum was preprocessed using the Savitzky–Golay derivative (S–G), standard normal variate (SNV), and multiplicative scattering correction methods. When applying PLS to the moisture content, the best calibration model accuracy was obtained using the S–G preprocessed spectrum. Furthermore, the best calibration model accuracy for starch content was obtained using the SNV preprocessed spectrum. The moisture and starch contents were categorized into five classes for LDA, with results indicating that the internal quality of sweet potatoes can be predicted and classified using chemometric models through nondestructive detection.
Highlights
Sweet potatoes originate from Central and South America
More than 90% of the paste is composed of sweet potatoes, and the quality of the final product is determined by the moisture and starch content of the raw sweet potatoes used
After the amylase enzyme activity increased, the starch concentration rapidly decreased. This is a general observation of starch hydrolysis in sweet potatoes
Summary
Sweet potatoes originate from Central and South America. Total worldwide production currently exceeds 105 million metric tons annually, with Asia producing approximately 82% of this yield [1]. The evaluation of sweet potato quality is based on external characteristics (such as size, shape, and color) and internal characteristics [10,11] Characteristics such as moisture and starch content are important factors that determine internal quality, significantly affecting sugar content and viscosity, and thereby the overall taste and appearance [12]. This includes analysis of water content, sugar content, and internal defects [19,20,21,22,23] This species of potato possesses different qualities to those we wish to study, such as starch texture, density, and external characteristics. The internal quality was evaluated using nondestructive NIR spectrometry, after which the moisture and starch contents were predicted and discriminated using a chemometric model (i.e., PLS and LDA)
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