Meat yield, proximate composition, pH and drip loss of breast and thigh muscles were studied in 29 hunted male and 32 slaughtered female pheasants. In the breast muscles of additional 14 hunted male pheasants, colour, cooking loss and shear force were measured. Weight of muscles of hunted male pheasants was higher than that of slaughtered females, but the percentages of breast and thigh muscles relative to the dressed carcass did not differ. Average protein concentrations in lean muscles were above 22%, and average fat was below 1.2%. In breast muscles, pH 24 was lower than in thigh (ca. 5.6 vs. 6.0), and, consequently, drip loss was higher (2.2-3.0% vs. 1.0-1.5%). Colour of breast muscles was characterised by L*a*b* values of about 55, 4 and 8-9, respectively. The shear force of breast muscles was about 30 N/cm 2 .
The effects of shot wounds on the hygienic conditions of pheasants (particularly those in the body cavity) were studied. Slaughtered (n = 33) and hunted pheasants (31 specimens with, and 33 specimens without shots in the body cavity) were stored uneviscerated at 0 and 4 degrees C. Specimens were taken at d 0, 3, 7, and 14. Hunted pheasants differed from slaughtered pheasants with respect to muscular hemorrhages and blood and fecal matter in the body cavity but also with regard to the presence of Escherichia coli in breast and thigh muscles. In addition, a higher thigh muscle pH (P < 0.05) was noted in hunted pheasants, with no significant (P > 0.05) increase observed during storage. Concentrations of biogenic amines in muscle tissue remained below the determination limit of 1 mg/kg for 90% of samples analyzed, with the maximum concentration for the remaining 10% of samples reaching 5.7 mg/kg, indicating a low incidence of contaminant bacteria. The observed changes in pH values and levels of biogenic amines failed to correlate with the presence or absence of shot lesions in the body cavity or abdominal region. Total aerobic counts increased significantly during storage, but the absolute numbers were consistently below 10(6) log(10) cfu/g. Although E. coli were <1 log(10) cfu/g in muscles of hunted pheasants on d 3 at 4 degrees C, counts of up to 3.7 log(10) cfu/g on d 7 at 4 degrees C indicated a loss of hygienic quality. Therefore, it is recommended that hunted, uneviscerated pheasants be stored 3 d at 4 degrees C, but not longer than 7 d after the hunt.
Beef has a requirement for refrigerated storage up to 14 d to achieve adequate aging and a tender product. To achieve this aging with little spoilage and no surface drying, vacuum packaging is attractive, because it is inherently simple and offers a clear indication to the packer when the process has failed or there is risk of spoilage. However, there is increasing pressure on the meat industry to limit the use of packaging materials in view of their cost and the cost involved in their recovery and recycling. The purpose of this report was to evaluate an alternative storage system in containers using modified atmospheres at reduced pressure (approximately 25 kPa). The quality of the meat for both container- and vacuum-packed treatments was measured during chilled storage for up to 3 wk. Storage time had the most significant effect on quality characteristics, irrespective of the packaging method. Storage in containers under a 70%N2:30%CO2 gas mixture gave characteristics similar to beef stored under vacuum. Storage in containers under 100% CO2 produced less drip loss than under 70%N2:30%CO2, but generally container storage produced 3 times as much drip loss as vacuum packaging. Shear force of the LM was unaffected by the type of packaging, and at d 2 after slaughter (i.e., before the storage trial was begun), sarcomere lengths of muscles intended for container storage were similar to those destined for vacuum storage. During the packaging treatment, the comparison between the storage systems was always done within 1 animal using one carcass-half for container storage and the other half for vacuum packaging; all bulls were shackled from the left hindleg during bleeding. The majority of the muscles from the left sides had lower shear force values than those from the right sides at the earlier storage times (2 and 9 d after slaughter) but had similar values after longer storage (16 and 23 d after slaughter). This is the first report that shackling beef carcasses from the left side can result in more tender meat in the LM from that side. The increased tenderness in the LM from the shackled side probably resulted from an early decrease in pH and an increase in calpain activity after mechanical strain of the muscles on the shackled side. This effect of shackling should be taken into account when designing systematic comparisons of tenderness in beef.
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