BLBS102-c15 BLBS102-Simpson March 21, 2012 13:21 Trim: 276mm X 219mm Printer Name: Yet to Come
15 Biochemistry of Raw Meat and Poultry 295
Figure 15.7.Pork hams after cutting in a slaughterhouse, ready for submission to a processing plant. (Courtesy of Industrias Carnicas ́
Vaquero SA, Madrid, Spain.)
also proceeds very quickly in these types of meats, with almost
full ATP disappearance in less than 2 hours (Batlle et al. 2001).
Red, firm, normal meat experiences a progressive pH drop down
to values around 5.8–6.0 at 2 hours postmortem. In this meat,
full ATP breakdown may take up to 8 hours. Finally, the dark,
firm, dry pork meat (DFD) and dark cutting beef meat are pro-
duced when the carbohydrates in the animal are exhausted from
before slaughter, and thus almost no lactic acid can be generated
during early postmortem due to the lack of a substrate. Very low
or almost negligible glycolysis is produced, and the pH remains
high in these meats, which constitutes a risk from the microbio-
logical point of view. These meats constitute a risk because they
are prone to contamination by foodborne pathogens and must
be carefully processed, with extreme attention to good hygienic
practices.
Protein oxidation is another relevant change during post-
mortem aging. Some amino acid residues may be converted
into carbonyl derivatives and cause the formation of inter- and
intraprotein disulfide links that can reduce the functionality of
proteins (Huff-Lonergan 2010).
FACTORS AFFECTING BIOCHEMICAL
CHARACTERISTICS
Effect of Genetics
Genetic Type
The genetic type has an important relevance for quality, not only
due to differences among breeds, but also to differences among
animals within the same breed. Breeding strategies have been
focused toward increased growth rate and lean meat content
and decreased backfat thickness. Although grading traits are
really improved, poorer meat quality is sometimes obtained.
Usually, large ranges are found for genetic correlations between
production and meat quality traits, probably due to the reduced
number of samples when analyzing the full quality of meat, or to
a large number of samples but with few determinations of quality
parameters. This variability makes it necessary to combine the
results from different research groups to obtain a full scope
(Hovenier et al. 1992).
Current pig breeding schemes are usually based on a backcross
or on a three- or four-way cross. For instance, a common cross
in the European Union is a three-way cross, where the sow is a
Landrace×Large White (LR×LW) crossbreed. The terminal
sire is chosen depending on the desired profitability per animal,
and there is a wide range of possibilities. For instance, the Duroc
terminal sire grows faster and shows a better food conversion
ratio but accumulates an excess of fat; Belgian Landrace and
Pietrain are heavily muscled but have high susceptibility to stress
and thus usually present a high percentage of exudative meats;
or a combination of Belgian Landrace×Landrace gives good
conformation and meat quality (Toldr ́a 2002).
Differences in tenderness between cattle breeds have also been
observed. Brahman cattle is used extensively in the southwest
of the United States since it is tolerant to adverse environmental
conditions but may give some tenderness issues (Brewer 2010).
Even toughness was associated to an increased amount of calpas-
tatin, the endogenous muscle calpain inhibitor (Ibrahim 2008).
Studies have been performed for cattle breeding. For instance,
after 10 days of aging, the steaks from an Angus breed were more