Abstract
This chapter explores the kangaroo meat supply chain, from species to industry, including markets, nutritional value, and other aspects of meat quality such as field harvesting, post-slaughter processes, sensory attributes and carcass hygiene. Kangaroo meat is obtained from wild animals, with Australia’s kangaroo meat industry based on legislated, regulated harvest of the abundant kangaroo species. Kangaroo meat can be classified as a game meat, bushmeat, and/or a free-range product, and there is increasing interest in kangaroo for human consumption across the globe. The carcass of the kangaroo has a high dressing percentage (>60%) and lean red meat yield. Of its low meat fat content (<2%), there is a high proportion of polyunsaturated fats including high levels of conjugated linoleic acid. Kangaroo meat has eating quality attributes comparable to beef and sheep. Initial sensory investigations have demonstrated an opportunity for the industry to implement their own product grading scheme. These initial studies have shown that kangaroo meat, overall, is a ‘good everyday’ product. However, there is scope to build on earlier research to better manage meat quality. Meat tenderness, for instance, is highly variable in kangaroo, although identification of post-slaughter effects helps predict this variability. Likewise, developments in carcass handling techniques and chilling regimes can enable improved management of meat tenderness. Examples include “tenderstretch”, optimized muscle temperature at rigor, and ageing of boned kangaroo meat. Flavour has also been shown to be strongly associated with consumer liking of kangaroo meat. Scope exists to characterize kangaroo meat flavour components. Given that kangaroo meat is sourced from wild animals shot in the field, many challenges exist for the industry, notably standardization of carcass handling and storage conditions prior to boning. Optimizing eating quality attributes such as tenderness, through innovation in field slaughtering processes will only help to augment food safety standards. Minimal microbial contamination of carcasses remains of paramount importance for consumer confidence and viability of the industry, as does monitoring of animal health and diseases, particularly for zoonotic diseases that require close attention by government inspection services.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Notes
- 1.
Embryonic diapause is a reproductive strategy where female kangaroos are able to delay the progress of pregnancy such that they can rapidly replace a young that dies early or has left the pouch, or can reproduce without delay when nutritional conditions improve.
- 2.
Kangaroos, also known as macropods, belong to the superfamily ‘Macropodoidea’, meaning ‘great footed’ or the ‘big foots’.
References
Ampt P, Owen K (2008) Consumer attitudes to kangaroo meat products. Report to the RIRDC, Publication No. 08/026, Canberra, Australia
Andrew AE (1988) Kangaroo meat - public health aspects. Aust J Zool 24:138–140
ARMCANZ (1997) Australian standard for hygienic production of game meat for human consumption. SCARM report. CSIRO Publishing, Collingwood, p 57
Arundel JH, Barker IK, Beveridge I (1977) Diseases of marsupials. In: Stonehouse B, Gilmore D (eds) The biology of marsupials. Macmillan, London
Arya F, Egger S, Colquhoun D, Sullivan D, Pal S, Egger G (2010) Differences in postprandial inflammatory responses to a ‘modern’ v. traditional meat meal: a preliminary study. Br J Nutr 104:724–728
Bailey AJ, Light ND (1989) Connective tissue in meat and meat products. Elsevier Science Publishers, Essex
Balowski M, Sobczak M, Zochowska-Kujawska J, Pytel-Zajac O, Niedzwiedz M (2015) Comparison of meat quality of selected exotic animals species. Pisc et Zootech 322(36/4):5–13
Bauman DE, Baumgard LH, Corl BA, Griinari JM (2000) Biosynthesis of conjugated linoleic acid in ruminants. J Anim Sci 77(E):1–15
Beaton AJW, Spiegel NB, Thompson JM, Wynn PC (2004) Kangaroo total muscle collagen as influenced by carcass weight and muscle location. Proc Aust Soc Anim Prod 25:215
Beaton AJW, Spiegel NB, Wynn PC, Thompson JM (2002) The effect of pre-rigor temperature on the ageing potential of kangaroo meat. ICoMST 48(2):752–753
Beaton AJW, Spiegel NB, Wynn PC, Thompson JM (2001a) Improving the quality of kangaroo meat. In: Natural, environmently wise and responsible. Kangaroo Industry Association of Australia, ACT
Beaton AJW, Spiegel NB, Wynn PC, Thompson JM (2001b) Improving the quality of kangaroo meat: effects of carcass suspension by one leg. AVCB Wildlife Health and Management in Australasia, AVA, pp 91–95
Beilken S, Tume R (2008) Nutritional composition of kangaroo meat: fat content and lipid composition. Report to the RIRDC, Publication No. 08/142, Canberra, Australia
Ben-Ami D (2010) Hopping meat. New Sci 208:30
Bensink JC, Ekaputra I, Taliotis C (1991) The isolation of salmonella from kangaroos and feral pigs processed for human consumption. Aust Vet J 68(3):106–107
Boleman SJ, Boleman SL, Miller RK, Taylor JF, Cross HR, Wheeler TL, Koohmaraie M, Shackelford SD, Miller MF, West RL, Johnson DD, Savell JW (1997) Consumer evaluation of beef of known categories of tenderness. J Anim Sci 75:1521–1524
Bouton PE, Fisher AL, Harris PV, Baxter RI (1973) A comparison of the effects of some post-slaughter treatments on the tenderness of beef. Food Technol 8:39–49
Braddick L (2002) Market place demand for kangaroo meat consumption in Western Australia: a sustainability issue. Honours Thesis. Murdoch University, Western Australia
Bruce HL, Scott JR, Thompson JM (2001) Application of an exponential model to early postmortem bovine muscle pH decline. Meat Sci 58:39–44
Bulló M, Casas-Agustench P, Amigó-Correig P, Aranceta J, Salas-Salvadó J (2007) Inflammation, obesity and comorbidities: the role of diet. Public Health Nutr 10:1164–1172
Butcher LA, O’Dea K, Sinclair AJ, Parkin JD, Smith IL, Blombery P (1990) The effects of very low fat diets enriched wih fish and kangaroo meat on cold-induced vasoconstriction and platelet function. Prostaglandins Leukot Essent Fatty Acids 39:221–226
Chippendale GM (1962) Botanical examination of kangaroo stomach contents and cattle rumen contents. Aust J Sci 25:21–22
Cooney R, Baumber A, Ampt P, Wilson G (2009) Sharing skippy: how can landholders be involved in kangaroo production in Australia? Rangel J 31:283–292
Corrigan P (1988) Export of kangaroo meat. Aust J Zool 24:179–180
Davies G, Brown D (2007) Bushmeat and livelihoods: wildlife management and poverty reduction. Blackwell Publishing, Oxford
Dawson TJ (2012) Kangaroos. CSIRO Publishing, Collingwood
Dawson TJ (1995) Kangaroos: biology of the largest marsupials. University of New South Wales Press, Sydney
Dennington S, Baldwin J (1988) Biochemical correlates of energy metabolism in muscles used to power hopping by kangaroos. Aust J Zool 36:229–240
Denny M (1982) Kangaroos: an historical perspective. In: Haigh C (ed) Kangaroos and other macropods of New South Wales. NPWS, Sydney, pp 36–45
Department of Environment (2013) Kangaroo population estimates. www.environment.gov.au/biodiversity/wildlife-trade/natives/wild-harvest/kangaroo-wallaby-statistics/kangaroo-population. Accessed 5 Mar 2018
Department of Environment (2012) Commercial kangaroo harvesting fact sheet: Government roles in kangaroo harvesting. www.environment.gov.au/biodiversity/wildlife-trade/publications/commercial-kangaroo-harvesting-fact-sheet-2012. Accessed 5 Mar 2018
Department of Environment (2008) National codes of practice (commercial and non-commercial) for the humane shooting of kangaroos and wallabies. www.environment.gov.au/biodiversity/wildlife-trade/publications/national-codes-practice-humane-shooting-kangaroos-and-wallabies. Accessed 5 Mar 2018
Doncon C (2000). Ageing increases tenderness in kangaroo meat. Thesis, University of Western Australia, Australia
Dransfield E, Ledwith MJ, Taylor AA (1991) Effect of electrical stimulation, hip suspension and ageing on quality of chilled pig meat. Meat Sci 29:129–139
Eglezos S, Huang B, Stuttard E (2007) A survey of the microbiological quality of kangaroo carcasses processed for human consumption in two processing plants in Queensland, Australia. J Food Prot 70(5):1249–1251
Engelke CF, Siebert BD, Gregg K, Wright A-DG, Vercoe PE (2004a) Kangaroo adipose tissue has higher concentrations of cis 9, trans 11-conjugated linoleic acid than lamb adipose tissue. J Anim Feed Sci 13(1):689–692
Engelke CF, Siebert BD, Gregg K, Wright A-DG, Vercoe PE (2004b) Kangaroos have unusually high concentrations of TVA in their foregut. Gut Microbiol Symp Proc Clermont-Ferrand Theix 44(1):21–23
Ford GL, Fogerty AC (1982) The fatty acids of kangaroo and wallaby meat. CSIRO Food Res Quat 42:57–60
Foster M, The Agricultural Commodities Section ABARES (2014) Emerging animal and plant industries: their value to Australia. Report to the RIRDC, Publication No. 14/069, Canberra, Australia
Frith HJ, Calaby JH (1969) Kangaroos. F W Cheshire Publishing Pty Ltd, Melbourne
Frank D, Oytam Y, & Hughes J (2017). Sensory perceptions and new consumer attitudes to meat. In: P P Purslow (Ed.), New aspects of meat quality: from genes to ethics, Woodhead Publishing, Elsevier, Duxford. Chapter 27:667–698
Geesink GH, van de Heuvel A, Hunt W (2017) Meat quality attributes of agile wallabies. Meat Sci 133:173–179
Grigg G (2017) Eating kangaroo (good) and goat (bad) for rangelands. Aust J Zool 39(1):146–153
Grunert KG (2005) Food quality and safety: consumer perception and demand. Eur Rev Agric Econ 32(3):369–391
Haigh C (1982) Kangaroos and other macropods of New South Wales. NPWS, Sydney
Hammond J, Mansfield WS (1936) Investigations on producing quality in beef. J Ministry of Agric 42:977
Hochachka PW, Runciman WB, Baudinette RV (1985) Why exercising tammar wallabies turn over lactate rapidly. Implications for models of mammalian exercise metabolism. Mol Phys 7:17–28
Holds G, Pointon A, Lorimer M, Kiermeier A, Raven G, Sumner J (2008) Microbial profiles of carcasses and minced meat from kangaroos processed in South Australia. Int J Food Microbiol 123:88–92
Hopwood PR (1988) Kangaroos as game meat animals: carcass meat yields and meat inspection. Aust J Zool 24:169–177
Hopwood PR, Butterfield RM (1976) The musculature of the proximal pelvic limb of the eastern grey kangaroo Macropus major (Shaw) Macropus giganteus (Zimm). J Anat 121:259–277
Hostetler RL, Landmann WA, Link BA, Fitzhugh HA Jr (1970) Influence of carcass position during rigor mortis on tenderness of beef muscles: comparison of two treatments. J Anim Sci 31:47–50
Hume ID (1982) Digestive physiology and nutrition of marsupials. Cambridge University Press, Cambridge, UK
Hume ID (1999) Marsupial nutrition. Cambridge University Press, Cambridge, UK
Hunt W, Mullen J (2015) The feasibility of commercially harvesting agile wallabies in the Northern Territory. Report to the RIRDC, PRJ – 009989, Canberra, Australia
Hunter J (1968) An historical journey of events at Sydney and at sea. Sydney, Angus & Robertson, Sydney, pp 1787–1792
Jarman PJ (1989) Sexual dimorphism in Macropodoidea. In: Grigg G, Jarman PJ, Hume I (eds) Kangaroos, wallabies and rat-kangaroos. Surrey Beatty & Sons Pty Ltd, Chipping Norton
Judge MD, Aberle ED, Forrest JC, Hedrick HB, Merkel RA (1989) Principles of meat science. Kendall/Hunt Publishing Company, Dubuque
Kelly J (2011) California, New York, the World and Kangaroos. Report to the RIRDC, Publication No. 10/220, Canberra, Australia
Khanal RC (2004) Potential health benefits of conjugated linoleic acid (CLA): a review. Asian Australas J Anim Sci 17:1315–1328
Koohmaraie M, Geesink GH (2006) Contribution of postmortem muscle biochemistry to the delivery of consistent meat quality with particular focus on the calpain system. Meat Sci 74:34–43
Koohmaraie M, Kent MP, Shackelford SD, Veiseth E, Wheeler TL (2002) Meat tenderness and muscle growth: is there any relationship. Meat Sci 62:345–352
Koohmaraie M, Seideman SC, Schollmeyer JE, Dutson TR, Crouse JD (1987) Effect of post-mortem storgae on Ca++−dependent proteases, their inihibitor and myofibril fragmentation. Meat Sci 19:187–196
Kyle R (1987) A feast in the wild. KUDU Publishing, Oxford
Ladds P (2009) Pathology of Australian native wildlife. CSIRO Publishing, Collingwood
Langer P (1988) The mammalian herbivore stomach: comparative anatomy, function and evolution. Gustav Fischer Verlag, Stuttgart
Larsen TM, Toubro S, Astrup A (2003) Efficacy and safety of dietary supplements containing CLA for the treatment of obesity: evidence from animal and human studies. J Lipid Res 44:2234–2241
Lavery HJ (1985) Biology for management. In: Lavery HJ (ed) The kangaroo keepers. University of Queensland Press, St Lucia
Lawrie RA (2006) Lawrie’s meat science. Woodhead Publishing Limited, Cambridge, UK
Lawrie RA (1998) Lawrie’s meat science, 6th edn. Woodhead Publishing Limited, Cambridge, UK
Liu L, Howe P, Zhou YF, Xu ZQ, Hocart C, Zhan R (2000) Fatty acids and beta-carotene in Australian purslane (Portulaca oleracea) varieties. J Chromatogr A 893(1):207–213
Lorenzo JM, Sarriés MV, Tateo A, Polidori P, Franco D, Lanza M (2014) Carcass characteristics, meat quality and nutritional value of horsemeat: a review. Meat Sci 96:1478–1488
Lunney D (1988) The Grigg proposal for kangaroo harvesting as an economic carrot for the restoration of the arid and semi-arid lands of Australia: presidential viewpoint. Aust J Zool 24(3):122–123
MacFarlane JD (1971) Exports of kangaroo meat. Aust J Zool 16:62–64
Marshall T, McIntyre BL (1989) A preliminary evaluation of the eating quality of meat derived from red Kanagroos. Aust J Zool 25:88–90
McVeigh JM, Tarrant PV (1982) J Nutr 122:1306–1314
Miller JB, Mann N, Cordain L (2009) Paleolithic nutrition: what did our ancestors eat? http://www.scienceschool.usyd.edu.au/history/2009/media/lectures/4-brand-miller-chapter.pdf. Accessed 10 Mar 2018
Muir K (2007) An indigenous Australian perspective on marsupials: the red kangaroo – Marlu. In: Dickman C (ed) A fragile balance: the extraordinary story of the Australian marsupials. The University of Chicago Press, Chicago
Mulligan M (1995) Processing of exotic meats. A paper presented by Southern Game Meat Pty Ltd to Meat ’95 in Kangaroo Industry Commercial Practices, Macarthur Consulting Pty Ltd, 1997
Munn AJ, Dawson TJ, McLeod SR (2010) Feeding biology of two functionally different foregut-fermenting mammals, the marsupial red kangaroo and the ruminant sheep: how physiological ecology can inform land management. Aust J Zool 282:226–237
Muzari MO, Skerratt LF, Jones RE, Duran TL (2010) Alighting and feeding behaviour of tabanid flies on horses, kangaroos and pigs. J Vet Parasitol 170:104–111
Mykytowycz R (1964) A survey of the endoparasites of the red kangaroo Megaleia rufa (Demarest). Parasitology 54:677–693
Newsome T, Newsome A (2016) The red kangaroo in Central Australia. CSIRO Publishing, Clayton South
O’Dea K (1988) Kangaroo meat – polyunsaturated and low in fat: ideal for cholesterol-lowering diets. Aust J Zool 24(3):140–143
Paleari MA, Camisasca S, Beretta G, Renon P, Corsico P, Bertolo G, Crivelli G (1998) Ostrich meat; physico-chemical characteristics and comparison with Turkey and bovine meat. Meat Sci 48:205–210
Parrish FC Jr (1977) Skeletal muscle tissue disruption. Recip Meat Conf Annu Proc 36:87–98
Perry D, Thompson JM, Hwang IH, Butchers A, Egan AF (2001) Relationship between objective measurements and taste panel assessment of beef quality. Aust J Exp Agric 41:981–989
Poole WE (1975) Reproduction in the two species of grey kangaroo, Macropus giganteus Shaw and M. fuliginosus (Desmarest). II. Gestation, parturition and pouch life. Aust J Zool 22:277–302
Pople T, Grigg G (1999) Commercial harvesting of kangaroos in Australia. www.environment.gov.au/resource/commercial-harvesting-kangaroos-australia. Accessed 5 Mar 2018
Priddel D (1987) The mobility and habitat utilisation of kangaroos. In: Caughley G, Shepherd N, Short J (eds) Kangaroos: their ecology and management in the sheep rangelands of Australia. Cambridge University Press, Cambridge, UK
Prince RIT (1976) Comparative studies of aspects of nutritional and related physiology in macropod marsupials. PhD thesis. University of Western Australia, Perth
Purchas RW, Keohane BE (1997) Sources of variation in the ultimate pH of M. longissimus from prime steers. Proc N Z Soc Anim Prod 57:271
Purslow PP (2017) What is meat quality? In: Purslow PP (ed) New aspects of meat quality: from genes to ethics. Woodhead Publishing, Elsevier, Duxford, pp 1–2
Ramsbottom JM, Strandine EI (1948) Comparative tenderness and identification of muscles in wholesale beef cuts. Food Res 13:315–330
Ranieri SM, Snowden JM, Roberts DW (1985) Characterisation of collagenous tissue of pigs to improve yield and meat quality. Animal Products Technology, Division of Animal Production, Western Australian Department of Agriculture
Richardson K (2012) Australia’s amazing kanagroos: their conservation, unique biology and coexistence with humans. CSIRO Publishing, Collingwood
RIRDC (1998) Kangaroo specifications and selected meat cuts. Rural Industries Reseach & Development Corporation of the Australian Government 1st edn., AUS-MEAT
Rudd S (1953) On our selection and our new selection. Angus & Robertson, Sydney
Sales J (1995) Nutritional quality of meat from some alternative species. World Rev Anim Prod 30(1–2):47–56
Sales J, Dingle JG (1998) Kangaroos: an alternative meat source. Food Aust 50:531–534
Schmid A, Collomb M, Sieber R, Bee G (2006) Conjugated linoleic acid in meat and meat products: a review. Meat Sci 73:29–41
Shepherd NC (1983) The feasibility of farming kangaroos. Rangel J 5(1):35–44
Shepherd N, Caughley G (1987) Options for management of kangaroos. In: Caughley G, Shepherd N, Short J (eds) Kangaroos, their ecology and management in the sheep rangelands of Australia. Cambridge University Press, Cambridge, UK
Shorthose WR (1980) III Nacional de Ciencia y Technologia Carnes, Buenos Aires, November 1980
Shorthose WR, Harris PV (1990) Effect of animal age on tenderness of selected beef muscles. J Food Sci 55(1):1–8
Shul’gin RY, Prikhod’ko YV, Shul’gin YP (2015) Kangaroo meat as a valuable raw material for dietary products. Biosci Biotechnol Res Asia 12(1):333–340
Simopoulos AP, Norman HA, Gillaspy JE (1995) Purslane in human nutrition and its potential for world agriculture. World Rev Nutr Diet 77:47–74
Sinclair AJ, O’Dea K, Dunstan G, Ireland PD, Niall M (1987) Effects on plasma lipids and fatty acid composition of very low fat diets enriched with fish or kangaroo meat. Lipids 22:523–529
Sinclair AJ, Slattery WJ, O’Dea K (1982) The analysis of polyunsaturated fatty acids in meat by capillary gas-liquid chromatography. J Sci Food Agric 33:771–776
Speare R, Donovan JA, Thomas AD, Speare PJ (1989) Diseases of free-ranging Macropodidae. In: Grigg G, Jarman P, Hume I (eds) Kangaroos, wallabies and rat-kangaroos. Surrey Beatty & Sons, Sydney
Spiegel NB (2008) Factors influencing the quality of meat from kangaroos. PhD thesis. The University of Sydney, Australia
Spiegel NB, Beaton AJW (2004) Developing a successful career in science: a postgraduate’s perspective. Anim Prod in Aust 25:392–399
Spiegel NB, Wynn PC (2014) Promoting kangaroo as a sustainable option for meat production on the rangelands of Australia. Anim Front 4(4):38–45
Spiegel NB, Johns WH, Sinclair SD, Wynn PC, Thompson JM, Greenwood PL (2010a) Eastern grey kangaroo (Macropus giganteus) myofibres. 1. A simplified classification method using two commercially available antibodies. Anim Prod Sci 50:386–392
Spiegel NB, Wynn PC, Thompson JM, Greenwood PL (2010b) Eastern grey kangaroo (Macropus giganteus) myofibres: 2. Characteristics of eight skeletal muscles. Anim Prod Sci 50:393–399
Spratt DM (1972) Aspects of the life-history of Dirofilaria roemeri in naturally and experimentally infected kangaroos, wallaroos and wallabies. Int J Parasitol 2:139–156
Spratt DM (1975) Further studies of Dirofilaria roemeri (nematoda: filarioidea) in naturally and experimentally infected macropodidae. Int J Parasitol 5:561–564
Stevens CE, Hume ID (1995) Comparative physiology of the vertebrate digestive system, 2nd edn. Cambridge University Press, Cambridge, UK
Tarrant PV (1989) Animal behaviour and environment in the dark-cutting condition in beef. A review. Ir J Food Sci Technol 13:1–21
Thompson JM (2002) Mangaing meat tenderness. Meat Sci 62:295–308
Thompson JM (2004) The effects of marbling on flavour and juiciness scores of cooked beef, after adjusting to a constant tenderness. Aust J Exp Agric 44:645–652
Thompson JM, Gee A, Hopkins DL, Pethick DW, Baud SR, O’Halloran WJO (2005a) Development of a sensory protocol for testing palatability of sheep meats. Aust J Exp Agric 45:469–476
Thompson JM, Pleasants AB, Pethick DW (2005b) The effect of design and demographic factors on consumer sensory scores. Aust J Exp Agric 45:477–482
Thomsen DA, Davies J (2005) Social and cultural dimensions of commercial kangaroo harvest in South Australia. Aust J Exp Agric 45:1239–1243
Tribe DE, Peel L (1963) Body composition of the kangaroo (Macropus sp.). Aust J Zool 11:273–289
Tunbridge D (1991) The story of the Flinders ranges mammals. Kangaroo Press, Kenthurst
Tunbridge D (1988) Flinders ranges dreaming. Aboriginal Studies Press, Canberra
Van Huis A (2017). New sources of animal proteins: edible insects. In: P P Purslow (Ed.), New aspects of meat quality: from genes to ethics, Woodhead Publishing, Elsevier, Duxford Chapter 17:443–461
Veiseth E, Shackelford SD, Wheeler TL, Koohmaraie M (2004) Factors regulating lamb longissimus tenderness are affected by age at slaughter. Meat Sci 68:635–640
Warriss PD (2000) Meat science: an introductory text. CABI Publishing, Bristol
Watkinson BM, Kütemeyer C, Reinhold T, Werlein HD (2004) Game meat – an alternative to beef? Fleischwirtschaft 84(3):53–57
Watson R, Gee A, Polkinghorne R, Rooke M (2008a) Consumer assessment of eating quality - development of protocols for meat standards Australia (MSA) testing. Aust J Exp Agric 48:1360–1367
Watson R, Polkinghorne R, Thompson JM (2008b) Development of the meat standards Australia (MSA) prediction model for beef palatability. Aust J Exp Agric 48:1368–1379
Webley LS, Beveridge I, Coulson G (2004) Endoparasites of an insular subspecies of the western grey kangaroo, Macropus fuliginosus. Aust J Zool 52:623–633
Wilson GR, Edwards MJ (2008) Native wildlife on rangelands to minimise methane and produce lower-emission meat: kangaroos versus livestock. Conserv Lett 1:119–128
Worgan GB (1978) Journal of a first fleet surgeon. The Library Council of NSW in association with the library of Australian History, Sydney
Wynn PC, Beaton AJW, Spiegel NB (2004) Meat quality of kangaroos. Report to the RIRDC Publication No. 04/151, Canberra, Australia
Zhong WWH, Lucas CA, Kang LHD, Hoh JFY (2001) Electrophoretic and immunochemical evidence showing that marsupial limb muscles express the same fast and slow myosin heavy chains as eutherians. Electrophoresis 22:1016–1020
Zukerman W (2010) Eating skippy. New Sci 208:42–45
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2019 Springer Nature Switzerland AG
About this chapter
Cite this chapter
Spiegel, N.B., Greenwood, P.L. (2019). Meat Production from Wild Kangaroo: The Species, Industry, Carcass Characteristics and Meat Quality Traits. In: Lorenzo, J., Munekata, P., Barba, F., Toldrá, F. (eds) More than Beef, Pork and Chicken – The Production, Processing, and Quality Traits of Other Sources of Meat for Human Diet. Springer, Cham. https://doi.org/10.1007/978-3-030-05484-7_12
Download citation
DOI: https://doi.org/10.1007/978-3-030-05484-7_12
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-05483-0
Online ISBN: 978-3-030-05484-7
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)