Wagyu beef's distinctive flavour and tenderness arise from its high levels of unsaturated intramuscular triglycerides. Although these compositional distinctions provide a unique Raman signature, extensive band overlap and background attenuation from packaging and frozen conditions hinder reliable in situ classification and constrain the interpretability of raw spectra.
This study (USD36 download fee) presents a label-free Raman spectroscopic and chemometric approach for authenticating Wagyu beef under realistic retail-like conditions. A supervised partial least squares discriminant analysis (PLS–DA) model was developed using spectra from unwrapped adipose tissue and evaluated with an independent validation set of frozen, plastic-wrapped samples from multiple breeds and suppliers.
The authors report that the model achieved 100% sample-level classification accuracy, To elucidate the molecular basis of discrimination and resolve spectral congestion, they used a two-stage decomposition combining singular value decomposition (SVD) and nonnegative matrix factorization (NMF), followed by nonnegative least squares (NNLS) fitting with pure triglyceride standards.
They found that analyses yielded chemically interpretable components, revealing enrichment of unsaturated triglycerides in Wagyu beef consistent with established compositional data. This could form the basis of a non-destructive test applicable directly through plastic packaging.
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