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RESEARCH ARTICLE
Contents Vol 46(7)

Quantifying the rate of pH and temperature decline in lamb carcasses using medium voltage electrical stimulation in an Australian abattoir

K. L. Pearce A D , D. L. Hopkins B , E. Toohey B , D. W. Pethick A and I. Richards C
+ Author Affiliations
- Author Affiliations

A The Australian Sheep Industry Cooperative Research Centre, Murdoch University, Division of Veterinary and Biomedical Science, South Street, Murdoch, WA 6150, Australia.

B NSW Department of Primary Industries, Agricultural and Research Station, Centre for Meat Sheep Development, PO Box 129, Cowra, NSW 2794, Australia.

C Meat and Livestock Australia, 23 Kyabra Street, Newstead, Qld 4006, Australia.

D Corresponding author. Email: k.pearce@murdoch.edu.au

Australian Journal of Experimental Agriculture 46(7) 869-874 https://doi.org/10.1071/EA05366
Submitted: 18 November 2005  Accepted: 5 April 2006   Published: 8 June 2006

Abstract

The current study evaluated the effectiveness of a medium voltage post-dressing electrical stimulation unit at different current and pulse width settings on pH decline. The objective was to optimise these settings to ensure that a high proportion of carcasses would reach pH 6.0 when the carcass was between 18–25°C according to the guidelines set by the Australian Sheep Meat Eating Quality (SMEQ) program. In the first experiment, 3 different current (400, 700 and 1000 mA) and pulse width (1, 2.5 and 5 ms) settings plus a control (0 mA and 0 ms) were applied to carcasses for 34 s at a frequency of 15 Hz with 7 sheep per treatment over 3 consignments (n = 210 carcasses). The pH–temperature decline was evaluated for all carcasses. Based on the SMEQ guidelines, 43% of stimulated carcasses reached a pH of 6.0 between a carcass temperature of 18–25°C, compared with 14% of unstimulated controls. Furthermore, 21% of carcasses reached a pH of 6.0 before the carcass temperature reached 25°C and 36% did not reach a pH of 6.0 by the time the carcass was 18°C. Alternatively, under the Meat Standards Australia (MSA) pH–temperature guidelines, carcasses should reach pH 6.0 between 12 and 35°C; 87% of stimulated carcasses reached a pH of 6.0 between 12–35°C, compared with 39% of unstimulated controls. One percent of carcasses reached a pH of 6.0 before the carcass temperature reached 35°C and 12% did not reach a pH of 6.0 by a carcass temperature by the time the carcass was 12°C. The abattoir in this study had a very fast chilling regime which resulted in carcasses reaching pH 6.0 at low temperatures and accounted for the low number of carcasses reaching a pH of 6.0 between 18–25°C. There was no effect of different current and pulse widths on the rate of decline, temperature at pH 6.0 or initial pH, which was attributed to the late application of electrical stimulation postmortem when muscle contraction is dependant on direct muscle stimulation. The combination of 2.5 ms and 1000 mA was the best performing treatment with respect to both SMEQ and MSA guidelines and the number of carcasses reaching the pH–temperature window. This treatment had the highest percentage of carcasses reaching the SMEQ window (60%) and MSA window (97%). Furthermore, it resulted in the lowest number of carcasses not reaching pH 6.0 by a carcass temperature of either 12 or 18°C, making it the most suitable to an abattoir with a fast chilling regime. Modulation and frequency manipulation of the segmented electrodes were assessed with the frequency manipulation resulting in the greatest stimulation response. Further work is needed to understand the effect of manipulating the frequency on the system overall or of the individual modules as well as changing the stimulation time.

Additional keywords: medium voltage electrical stimulation, pH–temperature decline, sheep meat eating quality.


Acknowledgments

The financial support of the Australian Sheep Industry CRC and Meat and Livestock Australia is greatly acknowledged. The valuable support and assistance of the management and staff of the abattoir involved in this study was paramount in the successful completion of this work.


References


Anon. (1992) ‘AUS-MEAT language’. 4th edn. (Authority for Uniform Specification Meat and Livestock Australia: Sydney)

Anon. (2002) Australian Standard AS/NZS 60479. Effects of current on human beings and livestock. Standards Australia, Standards House, North Sydney, NSW.

Asghar A, Henrickson RL (1982) Post mortem stimulation of carcasses: effects on biochemistry. biophysics, microbiology and quality of meat. Critical Reviews in Food Science and Nutrition 18, 1–58.
PubMed |
open url image1

Chrystall BB, Devine CE (1978) Electrical stimulation, muscle tension and glycolysis in bovine sternomandibularis. Meat Science 2, 49–58.
Crossref | GoogleScholarGoogle Scholar | open url image1

Chrystall BB, Devine CE, Davey L (1980) Studies in electrical stimulation: post mortem decline in nervous response in lambs. Meat Science 4, 69–78.
Crossref | GoogleScholarGoogle Scholar | open url image1

Devine CE , Hopkins DL , Hwang IH , Ferguson DM , Richards I (2004) Electrical stimulation. In ‘Encyclopedia of meat sciences’. (Eds WK Jensen, CE Devine, M Dikeman) (Elsevier Academic Press)

Geesink GH, Mareko MHD, Morton JD, Bickerstaffe R (2001) Electrical stimulation- when more is less. Meat Science 57, 145–151.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hopkins DL , Shaw FD , Baud S , Walker PJ (2005) Effects of level of current during lamb carcass stimulation on post-mortem muscle changes and meat quality. In ‘New Zealand Society of Animal Production’. (Ed. GK Barrell) p. 247–251 (Lincoln University: Christchurch)

Jacob RH, Pethick DW, Chapman HM (2005) Muscle glycogen concentrations in commercial consignments of Australian lamb measured on farm and post-slaughter after three different lairage periods. Australian Journal of Experimental Agriculture 45, 543–552.
Crossref | GoogleScholarGoogle Scholar | open url image1

Lawrie RA (1998) ‘Meat Science.’ (Woodhead Publishing Limited: Cambridge)

McGeehin B, Sheridan JJ, Butler F (2001) Factors affecting the pH decline in lamb after slaughter. Meat Science 58, 79–84.
Crossref | GoogleScholarGoogle Scholar | open url image1

Morton HC, Newbold RP (1982) Pathways of high and low voltage electrical stimulation in sheep carcasses. Meat Science 7, 285–297.
Crossref | GoogleScholarGoogle Scholar | open url image1

Pethick DW, Rowe JB (1996) The Effect of nutrition and exercise on carcass parameters and the level of glycogen in skeletal muscle of Merino Sheep. Australian Journal of Agricultural Research 47, 525–537.
Crossref | GoogleScholarGoogle Scholar | open url image1

Pethick DW, Rowe JB, McIntyre B (1994) Effect of Diet and Exercise on Glycogen Levels in the Muscle of Cattle. Animal Production in Australia 20, 403. open url image1

Polidori P, Lee S, Kauffman RG, Marsh BB (1999) Low voltage electrical stimulation of lamb carcasses: effects on meat quality. Meat Science 53, 179–182.
Crossref | GoogleScholarGoogle Scholar | open url image1

Sams A (1998) Commercial implementation of postmortem electrical stimulation. Poultry Science 78, 290–294. open url image1

Shaw FD, Baud SR, Richards I, Pethick DW, Walker PJ, Thompson JM (2005) New electrical stimulation technologies for sheep carcasses. Australian Journal of Experimental Agriculture 45, 575–583.
Crossref | GoogleScholarGoogle Scholar | open url image1

Swan JE (1993) ‘pH variability in muscles: a literature review.’ (Meat Industry Research Institute of New Zealand: Ruakura)

Thompson JM (2002) Managing meat tenderness. Meat Science 62, 295–308.
Crossref | GoogleScholarGoogle Scholar | open url image1

Thompson JM, Hopkins DL, D'Souza DN, Walker PJ, Baud SR, Pethick DW (2005) The impact of processing on sensory and objective measurements of sheep meat eating quality. Australian Journal of Experimental Agriculture 45, 561–573.
Crossref | GoogleScholarGoogle Scholar | open url image1

Toohey ES, Hopkins DL, McLeod BM, Nielsen SG (2006) Quantifying the rate of pH and temperature decline in lamb carcasses at three NSW abattoirs. Australian Journal of Experimental Agriculture 46, 875–878. open url image1

Young OA, Hopkins DL, Pethick DW (2005) Critical control points for meat quality in the Australian sheep meat supply chain. Australian Journal of Experimental Agriculture 45, 593–601.
Crossref | GoogleScholarGoogle Scholar | open url image1