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Characterization of Potato Tuber Tissues Using Spatialized MRI T2 Relaxometry.

Guylaine CollewetSaïd MoussaouiStephane QuellecGhina HajjarLaurent LeportMaja Musse
Published in: Biomolecules (2023)
Magnetic Resonance Imaging is a powerful non-destructive tool in the study of plant tissues. For potato tubers, it greatly assists the study of tissue defects and tissue evolution during storage. This paper describes the MRI analysis of potato tubers with internal defects in their flesh tissue at eight sampling dates from 14 to 33 weeks after harvest. Spatialized multi-exponential T2 relaxometry was used to generate bi-exponential T2 maps, coupled with a classification scheme to identify the different T2 homogeneous zones within the tubers. Six classes with statistically different relaxation parameters were identified at each sampling date, allowing the defects and the pith and cortex tissues to be detected. A further distinction could be made between three constitutive elements within the flesh, revealing the heterogeneity of this particular tissue. Relaxation parameters for each class and their evolution during storage were successfully analyzed. The work demonstrated the value of MRI for detailed non-invasive plant tissue characterization.
Keyphrases
  • magnetic resonance imaging
  • contrast enhanced
  • computed tomography
  • machine learning
  • deep learning
  • magnetic resonance