The pH changes occurring in a carcass during the first 24 h after slaughter are important for the quality of the final meat or meat products. Protein denaturation will occur if pH falls to too low a level or if a relatively low pH sets in at a time after slaughter where the carcass temperature is still high. This will result in meat with poor water holding capacity and in extreme cases in meat that is PSE. pH is measured electrochemically using either glass or solid state (IS-FET) electrodes. However, electrochemically based methods are slow to use and do not offer good precision on unhomogenized meat. In this work it has been investigated whether pH can be measured spectroscopically in reflectance using the visual and near infrared spectral regions. On a limited number of pig meat samples (46 longissimus dorsi and 46 semimembranosus muscles) correlations of 0.85 have been achieved using the fast spectroscopic techniques opposed to glass electrode measurements done in duplicate. The prediction errors for the spectroscopic techniques are found to be comparable to the precision of the reference method.
[1]
H. Swatland.
Color Measurements on Pork and Veal Carcasses by Fiber Optic Spectrophotometry
,
1986
.
[2]
F. J. Francis,et al.
Food Colorimetry: Theory and Applications
,
1975
.
[3]
H J Swatland,et al.
A review of the relationships of pH with physical aspects of pork quality.
,
1988,
Meat science.
[4]
H. J. Swatland,et al.
A Review of Meat Spectrophotometry (300 to 800 nm)
,
1989
.
[5]
Mitsuru Mitsumoto,et al.
Near‐Infrared Spectroscopy Determination of Physical and Chemical Characteristics in Beef Cuts
,
1991
.
[6]
H. Swatland.
Infrared Fiber Optic Spectrophotometry of Meat1
,
1983
.
[7]
P. Geladi,et al.
Linearization and Scatter-Correction for Near-Infrared Reflectance Spectra of Meat
,
1985
.