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Merete Edelenbos

Prediction of Starch, Soluble Sugars and Amino Acids in Potatoes (Solanum tuberosum L.) Using Hyperspectral Imaging, Dielectric and LF-NMR Methodologies

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  • Anders Kjær
  • ,
  • Glenn Nielsen, Newtec Engineering A/S, Syddansk universitet
  • ,
  • Søren Stærke, Newtec Engineering A/S
  • ,
  • Morten Rahr Clausen
  • ,
  • Merete Edelenbos
  • Bjarke Jørgensen, Newtec Engineering A/S

Handling and processing of potatoes is performed in increasingly large and more automated facilities, and the industry calls for more automated machinery for quality assessment and sorting by concentration of starch, soluble sugars, protein, amino acids etc. of the potato tubers. The present study was designed to evaluate five different scanning methods for their potential use in potato assessment and sorting. Two methods were based on hyperspectral imaging, two were based on dielectric/bio-impedance and one was based on low-field nuclear magnetic resonance. A set of 60 potatoes of 10 different cultivars were simultaneously sampled for analyses of content and scanned by the five different scanning methods. The resulting multivariate dataset was used to estimate the prediction ability of the individual scanning methods on starch-related parameters, selected simple sugars, selected amino acids, conductivity of pressed cell sap and cell sizes. Results showed that most types of spectral analyses had relatively high potential for predicting the starch-related parameters and medium potential for predicting the concentration of the reducing sugars fructose and glucose. Most methods showed medium potential for prediction of several amino acids, including asparagine, which showed particularly promising predictions in the hyperspectral analyses of intact potatoes. The presented screening study enabled us to perform robust choices for the further development and optimization of the methods and instruments for industrial implementation.

Original languageEnglish
JournalPotato Research
Volume59
Issue4
Pages (from-to)357-374
Number of pages28
ISSN0014-3065
DOIs
Publication statusPublished - Dec 2016

    Research areas

  • Amino acids, Dielectric function, Hyperspectral imaging, LF-NMR, Starch, Sugars

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