Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

Prediction of dressing percentage, carcass characteristics and meat yield of goats, and implications for live assessment and carcass-grading systems

Paul L. Greenwood https://orcid.org/0000-0002-7719-8233
+ Author Affiliations
- Author Affiliations

NSW Department of Primary Industries, Armidale Livestock Industries Centre, J. S. F. Barker Building, Trevenna Road, University of New England, Armidale, NSW 2351, Australia. Email: paul.greenwood@dpi.nsw.gov.au

Animal Production Science 61(3) 313-325 https://doi.org/10.1071/AN20160
Submitted: 1 April 2020  Accepted: 16 September 2020   Published: 22 October 2020

Abstract

Context: Dressing percentage (DP) and meat yield (MY) predictions using live assessments and carcass measurements enable objective valuation of animals and their carcasses. We hypothesised that distribution of goat carcass tissues affects predictive value of live body condition scoring (CS) methods and carcass measurements for these traits.

Aims: The present paper aimed to assess the value of CS methods for prediction of DP and MY and of carcass measurements for prediction of MY.

Methods: Correlation and regression analyses from a dataset (n = 1014 goats) highly heterogeneous for factors influencing DP and MY were used to assess (1) the value of live-goat assessments and classifications, including five CS methods, age (dentition), liveweight (LW), sex, fleece characteristics and breed or genotype to predict DP and MY, and (2) the value of hot standard carcass weight (HSCW) and carcass GR (soft tissue over the 12th rib) tissue depth, eye-muscle depth and eye-muscle area to predict MY.

Key results: Among kids, LW accounted for 1% (residual standard deviation of 2.6%) of variation in DP, 22% (2.3%) in MY (% LW) and 34% (2.5%) in MY (% HSCW). LW plus the best CS method accounted for 24% (2.3%) of variation in DP, 58% (1.7%) in MY (% LW) and 61% (2.0%) in MY (% HSCW). Among all goats, LW plus CS accounted for up to 21% (3.2%), 39% (2.1%) and 45% (2.2%) of variation in these traits. Regression models that included age, sex, fleece type, breed or genotype, LW and CS accounted for 67% (2.5%), 72% (1.9%) and 72% (2.1%) of variation in DP, MY (% LW) and MY (% HSCW). Among carcass measurements, HSCW plus eye-muscle depth had best predictive value, accounting for 61% (2.3%) of variation in MY (% HSCW) for kids and 40% (2.9%) for all goats.

Conclusions: The body condition-score methods that best relate to DP and MY (% LW or % HSCW) assessed the shape of M. longissimus lumborum (eye muscle) in the lumbar region, which relates to muscularity of goats, rather than subcutaneous fat depth such as assessed at the GR-site.

Implications: The results guide potential targets for future developments in live-goat assessment, carcass classification and grading, and trading languages underpinned by value-based marketing.

Keywords: AUS-MEAT goatmeat language, carcass description, goatmeat, meat quality, meat supply chain.


References

AMLC (1986) ‘Handbook of Australian meat.’ 4th edn. (Australian Meat & Live-Stock Corporation: Sydney, NSW, Australia)

AMLC (1989) ‘AUS-MEAT operations manual.’ 2nd edn. (Australian Meat & Live-Stock Corporation: Sydney, NSW, Australia)

Anderson F, Cook J, Williams A, Gardner GE (2018) Computed tomography has improved precision for prediction of intramuscular fat percent in the M. longissimus thoracis et lumborum in cattle compared to manual grading. Meat Science 145, 425–430.
Computed tomography has improved precision for prediction of intramuscular fat percent in the M. longissimus thoracis et lumborum in cattle compared to manual grading.Crossref | GoogleScholarGoogle Scholar | 30055434PubMed |

Anon (1983) ‘Model code of practice for the welfare of animals: road transport of livestock.’ (Australian Bureau of Animal Health: Canberra, ACT, Australia)

Anon (1991) ‘Model code of practice for the welfare of animals: the goat. SCARM report 32.’ Australian Agricultural Council. Standing Committee on Animal Welfare. (CSIRO Publishing: Melbourne, Vic., Australia)

Anon (2001) ‘Model code of practice for the welfare of animals: livestock at slaughtering establishments. SCARM report 79.’ Australian Agricultural Council. Standing Committee on Animal Welfare. (CSIRO Publishing: Melbourne, Vic., Australia)

AUS-MEAT (2018a) ‘GOATMEAT language.’ (AUS-MEAT: Brisbane, Qld, Australia) Available at https://www.ausmeat.com.au/WebDocuments/GoatMeat_Language.pdf [Verified 19 February 2020]

AUS-MEAT (2018b) ‘Australian beef carcass evaluation. Beef and veal chiller assessment language.’ (AUS-MEAT: Brisbane, Qld, Australia) Available at https://www.ausmeat.com.au/WebDocuments/Chiller_Assessment_Language.pdf [Verified 3 September 2020]

AUS-MEAT (2019) ‘SHEEPMEAT language.’ (AUS-MEAT: Brisbane, Qld, Australia) Available at https://www.ausmeat.com.au/WebDocuments/SheepMeat_Language.pdf [Verified 19 February 2020]

BGBAA (2020) ‘Boer Goat Breeders Association of Australia. Home page.’ Available at https://www.australianboergoat.com.au/ [Verified 13 March 2020]

Cafe LM, McKiernan WA, Robinson DL (2014) Selection for increased muscling improved feed efficiency and carcass characteristics of Angus steers. Animal Production Science 54, 1412–1416.
Selection for increased muscling improved feed efficiency and carcass characteristics of Angus steers.Crossref | GoogleScholarGoogle Scholar |

Clements BW, Thompson JM, Harris DC, Lane JG (1981) Prediction of carcase fat depth in live lambs: a comparison of techniques. Australian Journal of Experimental Agriculture and Animal Husbandry 21, 566–569.
Prediction of carcase fat depth in live lambs: a comparison of techniques.Crossref | GoogleScholarGoogle Scholar |

Colomer-Rocher F, Morand-Fehr P, Kirton AH (1987) Standard methods and procedures for goat carcass evaluation, jointing and tissue separation. Livestock Production Science 17, 149–159.
Standard methods and procedures for goat carcass evaluation, jointing and tissue separation.Crossref | GoogleScholarGoogle Scholar |

Corazzin M, Del Bianco S, Piasentier E (2019) Carcass characteristics and meat quality of sheep and goat. In ‘More than beef, pork and chicken: the production, processing, and quality of other sources of meat for human diet’. (Eds JM Lorenzo, PES Munekata, FJ Barba, F Toldrá) pp. 119–165. (Springer Nature: Cham, Switzerland)

Devendra C, Owen JE (1983) Qualitative and quantitative aspects of meat production from goats. World Animal Review 47, 19–29.

Dhanda JS, Taylor DG, McCosker JE, Murray PJ (1999a) The influence of goat genotype on the production of Capretto and Chevon carcasses. 1. Growth and carcass characteristics. Meat Science 52, 363–367.
The influence of goat genotype on the production of Capretto and Chevon carcasses. 1. Growth and carcass characteristics.Crossref | GoogleScholarGoogle Scholar | 22062697PubMed |

Dhanda JS, Taylor DG, Murray PJ, McCosker JE (1999b) The influence of goat genotype on the production of Capretto and Chevon carcasses. 2. Meat quality. Meat Science 52, 355–361.
The influence of goat genotype on the production of Capretto and Chevon carcasses. 2. Meat quality.Crossref | GoogleScholarGoogle Scholar | 22062696PubMed |

Dhanda JS, Taylor DG, Murray PJ, Pegg RB, Shand PJ (2003a) Goat meat production: present status and future possibilities. Asian-Australasian Journal of Animal Sciences 16, 1842–1852.
Goat meat production: present status and future possibilities.Crossref | GoogleScholarGoogle Scholar |

Dhanda JS, Taylor DG, Murray PJ (2003b) Part 1. Growth, carcass and meat quality parameters of male goats: effects of genotype and liveweight at slaughter. Small Ruminant Research 50, 57–66.
Part 1. Growth, carcass and meat quality parameters of male goats: effects of genotype and liveweight at slaughter.Crossref | GoogleScholarGoogle Scholar |

Dhanda JS, Taylor DG, Murray PJ (2003c) Part 2. Carcass composition and fatty acid profile of adipose tissue of male goats: effects of genotype and liveweight at slaughter. Small Ruminant Research 50, 57–66.
Part 2. Carcass composition and fatty acid profile of adipose tissue of male goats: effects of genotype and liveweight at slaughter.Crossref | GoogleScholarGoogle Scholar |

DSEWPC (2011) ‘The feral goat (Capa hircus).’ (Department of Sustainability, Environment, Water, Population and Communities: Canberra, ACT, Australia)

Gardner GE, Starling S, Charnley J, Hocking-Edwards J, Peterse J, Williams A (2018) Calibration of an on-line dual energy X-ray absorptiometer for estimating carcase composition in lamb at abattoir chain-speed. Meat Science 144, 91–99.
Calibration of an on-line dual energy X-ray absorptiometer for estimating carcase composition in lamb at abattoir chain-speed.Crossref | GoogleScholarGoogle Scholar | 30008338PubMed |

Gilmour AR (1985) ‘REG: a generalised linear models program’. Miscellaneous bulletin 1. (Department of Agriculture, NSW: Sydney, NSW, Australia)

Gilmour AR, Luff AF, Fogarty NM, Banks R (1994) Genetic parameters for ultrasound fat depth and eye muscle measurements in live Poll Dorset sheep. Australian Journal of Agricultural Research 45, 1281–1291.
Genetic parameters for ultrasound fat depth and eye muscle measurements in live Poll Dorset sheep.Crossref | GoogleScholarGoogle Scholar |

Goetsch AL, Merkel RC, Gipson TA (2011) Factors affecting goat meat production and quality. Small Ruminant Research 101, 173–181.
Factors affecting goat meat production and quality.Crossref | GoogleScholarGoogle Scholar |

Greenwood  PFinn  JMay  T1992 A survey to assist development of carcass description and live assessment systems for goats. Animal Production in Australia19 277280

Greenwood P, Finn J, May T (1996) ‘Marketing prime goat kids.’ (NSW Agriculture: Orange, NSW, Australia)

Greenwood P, Holst P, Graham P, Shands C (2004) ‘Estimating young goat carcase weights.’ Agfact A7.1.14. (NSW Agriculture: Orange, NSW, Australia)

Greenwood PL, Finn JA, May TJ, Nicholls PJ (2008) Preslaughter management practices influence carcass characteristics of young goats. Australian Journal of Experimental Agriculture 48, 910–915.
Preslaughter management practices influence carcass characteristics of young goats.Crossref | GoogleScholarGoogle Scholar |

Greenwood PL, Finn JA, May TJ, Nicholls PJ (2010) Management of young goats during prolonged fasting affects carcass characteristics but not pre-slaughter liveweight or cortisol. Animal Production Science 50, 533–540.
Management of young goats during prolonged fasting affects carcass characteristics but not pre-slaughter liveweight or cortisol.Crossref | GoogleScholarGoogle Scholar |

Guerrero A, del Mar Campo M, Olletta JL, Sanudo C (2018) Carcass and meat quality in goat. In ‘Goat science’. (Ed. S Kukovics) pp. 267–286. (IntechOpen: London, UK)

Honhold N, Petit H, Halliwell RW (1988) A condition scoring system for small East African goats in Zimbabwe. The Small Ruminant Research Network Newsletter 13, l–7.

Hopkins DL (1988) The relationship between live animal condition score and carcass fat score in lambs. Wool Technology and Sheep Breeding 36, 87–89.

Hopkins DL (1991) Estimating carcass weight from liveweight in lambs. Small Ruminant Research 6, 323–328.
Estimating carcass weight from liveweight in lambs.Crossref | GoogleScholarGoogle Scholar |

Jacob RH, Pethick DW (2014) Animal factors affecting meat quality of Australian lamb meat. Meat Science 96, 1120–1123.
Animal factors affecting meat quality of Australian lamb meat.Crossref | GoogleScholarGoogle Scholar | 24268675PubMed |

Jacobson C, Pethick D (2013) Nutrient composition of Australian goatmeat. Project B.GOA.0037. Final report. Meat & Livestock Australia, Sydney, NSW, Australia.

Kenyon PR, Maloney SK, Blache D (2014) Review of body condition score in relation to production characteristics. New Zealand Journal of Agricultural Research 57, 38–64.
Review of body condition score in relation to production characteristics.Crossref | GoogleScholarGoogle Scholar |

Kirton AH, Carter AH, Clarke JN, Duganzich DM (1984) Dressing percentage of lambs. Proceedings of the New Zealand Society of Animal Production 44, 231–233.

Kirton AH, Uljee AE, Duganzich DM, Feist CL (1991) Estimation by drafters of rib tissue thickness (GR) and carcass weight of live lambs. New Zealand Journal of Agricultural Research 34, 69–74.
Estimation by drafters of rib tissue thickness (GR) and carcass weight of live lambs.Crossref | GoogleScholarGoogle Scholar |

May T, O’Halloran W, Herdegen J (1987) ‘Fat scoring lambs.’ Agfact A3.3.35. (Department of Agriculture, NSW: Sydney, NSW, Australia)

May T, Greenwood P, Finn J (1995) ‘Fat scoring goats.’ Agfact A7.1.10. (NSW Agriculture: Orange, NSW, Australia)

McGregor BA (1990) Boneless meat yields and prediction equations from carcass parameters of Australian cashmere goats. Small Ruminant Research 3, 465–473.
Boneless meat yields and prediction equations from carcass parameters of Australian cashmere goats.Crossref | GoogleScholarGoogle Scholar |

McGregor BA (1992) Body composition, body condition scores and carcass and organ components of grazing Angora goats. Proceedings of the Australian Society of Animal Production 19, 273–276.

McGregor BA (1996) Carcass quality and commercial acceptance of Angora goat kids fed supplementary energy and slaughtered at four months of age. Proceedings of the Australian Society of Animal Production 21, 135–138.

McGregor B (2007) ‘Assessment skills for goat meat marketing.’ AG0097. (Agriculture Victoria: Melbourne, Vic., Australia) Available at http://agriculture.vic.gov.au/agriculture/livestock/goats/marketing/assessment-skills-for-goat-meat-marketing [Verified 19 February 2020]

McGregor BA (2017) Relationships between live weight, body condition, dimensional and ultrasound scanning measurements and carcass attributes in adult Angora goats. Small Ruminant Research 147, 8–17.
Relationships between live weight, body condition, dimensional and ultrasound scanning measurements and carcass attributes in adult Angora goats.Crossref | GoogleScholarGoogle Scholar |

McPhee MJ, Walmsley BJ, Skinner B, Littler B, Siddell JP, Cafe LM, Wilkins JF, Oddy VH, Alempijevic A (2017) Live animal assessments of rump fat and muscle score in Angus cows and steers using 3-dimensional imaging. Journal of Animal Science 95, 1847–1857.
Live animal assessments of rump fat and muscle score in Angus cows and steers using 3-dimensional imaging.Crossref | GoogleScholarGoogle Scholar | 28464097PubMed |

Miller DW, Bennett EJ, Harrison JL, Anderson F, Adam CL (2018) Dual-energy X-ray absorptiometry scans accurately predict differing fat content in live sheep. Journal of Animal Science and Biotechnology 9, 80
Dual-energy X-ray absorptiometry scans accurately predict differing fat content in live sheep.Crossref | GoogleScholarGoogle Scholar | 30455880PubMed |

Miller GA, Hyslop JJ, Barclay D, Edwards A, Thomson W, Duthie C-A (2019) Using 3D imaging and machine learning to predict liveweight and carcass characteristics of live finishing beef cattle. Frontiers in Sustainable Food Systems 3, 30
Using 3D imaging and machine learning to predict liveweight and carcass characteristics of live finishing beef cattle.Crossref | GoogleScholarGoogle Scholar |

Mitchell TD (1982) ‘How to tell the age of goats.’ Agfact A7.2.2. (Department of Agriculture, NSW: Dubbo, NSW, Australia)

Mitchell TD (1986) ‘Condition scoring goats.’ Agfact A7.2.3. (Department of Agriculture, NSW: Dubbo, NSW, Australia)

MLA (2017) ‘Factsheet 3. Understanding dressing percentage when marketing goats.’ (Meat & Livestock Australia: Sydney, NSW, Australia) Available at https://www.mla.com.au/globalassets/mla-corporate/extensions-training-and-tools/documents/fs03-understanding-dressing-percentage-final.pdf [Verified 24 February 2020]

MLA (2019) ‘Global snapshot. Goatmeat’. (Meat & Livestock Australia: Sydney, NSW, Australia) Available at https://www.mla.com.au/globalassets/mla-corporate/prices–markets/documents/os-markets/red-meat-market-snapshots/2019-mla-ms_global-goatmeat-final.pdf [Verified 24 February 2020]

Morand-Fehr P, Amaro RP, Rubino R, Santucci PK, Hadjipaniotou M (1992) ‘Assessment of goat body condition and its use for feeding management.’ Pre-conference proceedings, V international conference on goats, vol. II, Part I, pp. 212–223. (Indian Council of Agricultural Research: New Delhi, India)

Pálsson H (1939) Meat qualities in the sheep with special reference to Scottish breeds and crosses. I. Journal of Agricultural Science, Cambridge 29, 544–626.
Meat qualities in the sheep with special reference to Scottish breeds and crosses. I.Crossref | GoogleScholarGoogle Scholar |

Pannier L, Pethick DW, Geesink GH, Ball AJ, Jacob RH, Gardner GE (2014) Intramuscular fat in the longissimus muscle is reduced in lambs from sires selected for leanness. Meat Science 96, 1068–1075.
Intramuscular fat in the longissimus muscle is reduced in lambs from sires selected for leanness.Crossref | GoogleScholarGoogle Scholar | 23816480PubMed |

SHEEP GENETICS (2020) Welcome to KIDPLAN. (SHEEP GENETICS: Armidale, NSW, Australia) Available at http://www.sheepgenetics.org.au/Breeding-services/KIDPLAN-Home [Verified 20 February 2020]

USDA (2001) ‘Institutional meat purchase specifications for fresh goat. Series 11.’ (United States Department of Agriculture: Washington, DC, USA) Available at https://naldc.nal.usda.gov/catalog/55329 [Verified 10 February 2020]

Webb EC, Casey NH, Simela L (2005) Goat meat quality. Small Ruminant Research 60, 153–166.
Goat meat quality.Crossref | GoogleScholarGoogle Scholar |

Werdi Pratiwi NM, Murray PJ, Taylor DG (2007) Feral goats in Australia: a study of the quality and nutritive value of their meat. Meat Science 75, 168–177.
Feral goats in Australia: a study of the quality and nutritive value of their meat.Crossref | GoogleScholarGoogle Scholar |

Williams A, Anderson F, Siddel J, Pethick DW, Hocking Edwards JE, Gardner GE (2017) Predicting lamb carcase composition from carcase weight and GR tissue depth. In ‘International congress on meat science and technology’, Cork, Ireland. (Eds D Troy, C McDonnell, L Hinds, J Kerry) pp. 729–732. (Wageningen Academic Publishers: Wageningen, The Netherlands)