Tenderness is the most important factor affecting consumer perception of ea
ting quality of meat. In this paper, the development of the principal compo
nent regression (PCR) models to relate near-infrared (NIR) reflectance spec
tra of raw meat to Warner-Bratzler (WB) shear force measurement of cooked m
eat was presented. NIR reflectance spectra with wavelengths from 1100 to 24
98 nm were collected on 119 longissimus dorsi meat cuts. The 1st principal
component (or factor) fi-om the absorption spectra log(1/R) showed that the
most significant variance from the spectra of tough and tender meats were
due to the absorptions of fat at 1212, 1722, and 2306 nm and water at 1910
nm. The distinctive fat absorption peaks at 1212, 1722, 1760, and 2306 nm w
ere found in the 2nd factor of the second derivative spectra of meat. In ad
dition, the local minima in the 2nd principal component of the second deriv
ative spectra showed the importance of water absorption at 1153 nm and prot
ein absorption at 1240, 1385, and 1690 nm. When the absorption spectra betw
een 1100 nm and 2498 nm. were used, the coefficient of determination (R-2)
of the PCR model to predict WB shear force tenderness was 0.692. The R-2 wa
s 0.612 when the spectra between 1100 nm and 1350 nm were analyzed. When th
e second derivatives of the spectral data were used, the R2 of the PCR mode
l to predict WB shear force of the meat was 0.633 for the full spectral ran
ge of 1100 to 2498 nm and 0.616 for the spectral range of 1100 to 1350 nm.