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Qualitative attributes and consumer perception of organic and free-range poultry meat

Published online by Cambridge University Press:  12 November 2008

C. CASTELLINI*
Affiliation:
Dept. Biologia Applicata, Università di Perugia, Borgo XX Giugno 74, 06121 Perugia, Italy
C. BERRI
Affiliation:
INRA, UR83 Recherches Avicoles, F-37380 Nouzilly, France
E. LE BIHAN-DUVAL
Affiliation:
INRA, UR83 Recherches Avicoles, F-37380 Nouzilly, France
G. MARTINO
Affiliation:
Dept. di Economia e Scienze Degli Alimenti - Università di Perugia, Borgo XX Giugno 74, 06121 Perugia, Italy
*
Corresponding author: [email protected]
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Abstract

The effect of the organic production (OP) system on the qualitative characteristics and consumer perception of poultry meat is reviewed in the following paper. Age at slaughtering, genetic strains (fast- and slow-growing), physical activity, and pasture intake are key factors in determining meat quality. In conventional farming, fast-growing chicks are generally used, but these are not suitable for OP, since they may develop health and welfare problems, the most recurrent of which are leg disorders and lameness. Conversely, use of slow-growing strains in OP has positive repercussions on both animal welfare and product qualitative characteristics (eating quality and appearance) perceived by consumers. From the published data it can be concluded that organic poultry can be a viable production method, especially if suitable changes in EU Regulation. 1804/99 are made. The market opportunity for both organic and free range poultry products does not yet seem to be fully developed. We suggest that structured integration between production and consumption stages could resolve this problem.

Type
Review Article
Copyright
Copyright © World's Poultry Science Association 2008

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References

ALESSIO, H., HAGERMAN, A. and FULKERSON, B. (2000) Generation of reactive oxygen species after exhaustive aerobic and isometric exercise. Medicine and Science in Sports and Exercise 32: 1576-1581.CrossRefGoogle ScholarPubMed
ALLEN, C.D., RUSSELL, S.M. and FLETCHER, D.L. (1997) . The relationship of broiler breast meat colour and pH to shelf-life and odor development. Poultry Science 76: 1042-1046.CrossRefGoogle ScholarPubMed
ALLEN C.D., , FLETCHER, D.L., NORTHCUTT, J.K. and RUSSELL, S.M. (1998) The relationship of broiler breast colour to meat quality and shelf-life. Poultry Science 77: 361-366.CrossRefGoogle ScholarPubMed
BERRI, C., WACRENIER, N., MILLET, N. and LE BIHAN-DUVAL, E. (2001) Effect of selection for improved body composition on muscle and meat characteristics of broilers from experimental and commercial lines. Poultry Science 80: 833-838.CrossRefGoogle ScholarPubMed
BERRI, C., DEBUT, M., SANTÉ-LHOUTELLIER, V., ARNOULD, C., BOUTTEN, B., SELLIER, N., BAÉZA, E., JEHL, N., JEGO, Y., DUCLOS, M.J. and LE BIHAN-DUVAL, E. (2005a) Variations in chicken breast meat quality: implications of struggle and muscle glycogen content at death. British Poultry Science 46: 572-579.CrossRefGoogle ScholarPubMed
BERRI, C., LE BIHAN-DUVAL, E., BAÉZA, E., CHARTRIN, P., PICGIRARD, L., JEHL, N., QUENTIN, M., PICARD, M. and DUCLOS, M.J. (2005b) Further processing characteristics of breast and leg meat from fast-, medium- and slow-growing commercial chickens. Animal Research 54: 123-134.CrossRefGoogle Scholar
BERRI, C., LE BIHAN-DUVAL, E., DEBUT, M., SANTÉ-LHOUTELLIER, V., BAÉZA, E., BRUNEL, V., JEGO, Y. and DUCLOS, M.J. (2007) Consequence of muscle hypertrophy on Pectoralis major characteristics and breast meat quality of broiler chickens. Journal of Animal Science 85: 2005-2011.CrossRefGoogle ScholarPubMed
BJERKE, F. (1992) Forbrugernes interesse for økologiske produkter. Roskilde RUC: Institut for Samfundsøkonomi og Planlægning. Archiv für Geflügelkunde 53: 237-245.Google Scholar
BOKKERS, E.A.M. and KOENE, P. (2003) Behaviour of fast- and slow growing broiler to 12 weeks of age and the physical consequence. Applied Animal Behaviour Science 20: 59-72.CrossRefGoogle Scholar
BRANT, A.W. and HANSON, H.L. (1962) Proceedings of the 12th World's Poultry Congress, Sydney, Australia, pp. 409-413.Google Scholar
CASTELLINI, C., MUGNAI, C. and DAL BOSCO, A. (2002a) Effect of organic production system on broiler carcass and meat quality. Meat Science 60: 219-225.CrossRefGoogle ScholarPubMed
CASTELLINI, C., MUGNAI, C. and DAL BOSCO, A. (2002b) Meat quality of three chicken genotypes reared according to the organic system. Italian Journal of Food Science 14: 401-412.Google Scholar
CASTELLINI, C., DAL BOSCO, A., MUGNAI, C. and BERNARDINI, M. (2003) Performance and behaviour of chickens with different growing rate reared according to the organic system. Italian Journal Animal Science 1: 291-298.Google Scholar
CASTELLINI, C., DAL BOSCO, A. and MUGNAI, C. (2004) Effect of pre-slaughter rearing conditions on the meat quality of organic chickens. Proceedings 39th Simposio Internazionale Zootecnia "Meat science and research" Rome, 10 June, 281-288.Google Scholar
CASTELLINI, C., DAL BOSCO, A., MUGNAI, C. and PEDRAZZOLI, M. (2006) Comparison of two chicken genotypes organically reared: oxidative stability and other qualitative traits. Italian Journal Animal Science 5: 29-42.CrossRefGoogle Scholar
CHAMBERS, J.R., FORTIN, A., MACKIE, D.A. and LARMOND, E. (1989) Comparison of sensory properties of meat from broilers of modern stocks and experimental strains differing in growth and fatness. Canadian Institute of Food Science and Technology Journal 22: 353-358.Google Scholar
CHARTRIN, P., BERRI, C., LEBIHAN-DUVAL, E., QUENTIN, M. and BAÉZA, E. (2005) Lipid and fatty acid composition of fresh and cured-cooked breast meat of standard, certified and label chickens. Archive für Geflügelkunde 69: 219-225.Google Scholar
COUNCIL REGULATION (EC), (1999) No 1804/99 of July 1999 supplementing Regulation (EEC) No 2092/91 on organic production of agricultural products. Off. J., L 222, 24/08/1999, pp.1-28.Google Scholar
CULIOLI, J., TOURAILLE, C., BORDES, P. and GIRARD, J.P. (1990) Carcass and meat characteristics of “Label Fermier” chickens. Archiv für Geflügelkunde 53: 237-245.Google Scholar
DEBUT, M., BERRI, C., ARNOULD, C., GUÉMENÉ, D., SANTÉ-LHOUTELLIER, V., SELLIER, N., BAÉZA, E., JEHL, N., JEGO, Y., BEAUMONT, C. and LE BIHAN-DUVAL, E. (2005) Behavioural and physiological responses of three chicken breeds to pre-slaughter shackling and acute heat stress. British Poultry Science 46: 527-535.CrossRefGoogle ScholarPubMed
DEBUT, M., BERRI, C., BAÉZA, E., SELLIER, N., ARNOULD, C., GUÉMENÉ, D., JEHL, N., BOUTTEN, B., JEGO, Y., BEAUMONT, C. and LE BIHAN-DUVAL E., (2003) Variation of chicken technological meat quality in relation to genotype and pre slaughter stress conditions. Poultry Science 82: 1829-1838.CrossRefGoogle Scholar
DELPECH, P., DUMONT, B.L. and NEFZAOUI, A. (1983) Influence du rationnement et du patrimoine génétique de poulets sur les caractéristiques physico-chimiques et sensorielles de la viande à différents âges. Proceedings of the 6th European Symposium on the Quality of Poultry Meat, pp. 21-27.Google Scholar
DRANSFIELD, E. and SOSNICKI, A.A. (1999) Relationship between muscle growth and poultry meat quality. Poultry Science 78: 743-746.CrossRefGoogle ScholarPubMed
FANATICO, A.C., CAVITT, L.C., PILLAI, P.B., EMMERT, J.L. and OWENS, C.M. (2005a) Evaluation of slower-growing broiler genotypes grown with and without outdoor access: meat quality. Poultry Science 84: 1785-1790.CrossRefGoogle ScholarPubMed
FANATICO, A.C., PILLAI, P.B., CAVITT, L.C., OWENS, C.M. and EMMERT, J.L. (2005b) Evaluation of slower-growing broiler genotypes grown with and without outdoor access: growth performance and carcass yield. Poultry Science 84: 1321-1327.CrossRefGoogle ScholarPubMed
FANATICO, A.C., PILLAI, P.B., CAVITT, L.C., EMMERT, J.L., MEULLENET, J.F. and OWENS, C.M. (2006) Evaluation of slower-growing broiler genotypes grown with and without outdoor access: sensory attributes. Poultry Science 85: 337-343.CrossRefGoogle ScholarPubMed
FANATICO, A.C., PILLAI, P.B., EMMERT, J.L., GBUR, E.E., MEULLENET, J.F. and OWENS, C.M. (2007) Sensory attributes of slow- and fast-growing chicken genotypes raised indoors or with outdoor access. Poultry Science 86: 2441-2449.CrossRefGoogle ScholarPubMed
FARMER, L.J, PERRY, G.C., LEWIS, P.D., NUTE, G.R., PIGGOTT, J.R. and PATTERSON, R.L.S. (1997) Responses of two genotypes of chicken to the diets and stocking densities of conventional UK and Label Rouge production systems. II. Sensory attributes. Meat Science 47: 77-93.CrossRefGoogle Scholar
GOODMAN, D. (2002) Rethinking Food Production-Consumption: Integrative Perspective. Sociologia Ruralis 42: 271-277.CrossRefGoogle Scholar
GORDON, S.H., FORBES, J.M. and WALKER, A.W. (2002) Management factors affecting the use of pasture by table chickens in extensive production systems. Proceedings of the UK Organic Research 2002 Conference, Organic Centre Wales, Aberystwyth, 26–28 March, 269-272.Google Scholar
GRASHORN, M.A. and SERINI, C. (2006) Quality of chicken meat from conventional and organic system. Proc XII European Poultry Conference, Verona 210-237.Google Scholar
GRASHORN, MA. (2006) Fattening performance, carcass and meat quality of slow and fast growing broiler strains under intensive and extensive feeding conditions. Proc XII European Poultry Conference, Verona 10236.Google Scholar
GRUNERT, K.G., BREDAHL, L. and BRUNSØ, K. (2004) Consumer perception of meat quality and implications for product development in the meat sector - a review. Meat Science 69: 259-272.CrossRefGoogle Scholar
GRUNERT, S.C. and JUHL, H.J. (1995) Values, environmental attitudes, and buying of organic foods. Journal of Economic Psychology 16: 39-62.CrossRefGoogle Scholar
GRUNERT, K.G. (2005) Food quality and safety: consumer perception and demand. European Review of Agricultural Economics 32: 369-391.CrossRefGoogle Scholar
HORSTED, , K, , HENNING, J. and HERMANSEN, J.E. (2005) Growth and sensory characteristics of organically reared broilers differing in strain, sex and age at slaughter. Acta Agriculturae Scandinavica, Section A – Animal Sciences 55: 149-157.Google Scholar
JAHAN, K., PATERSON, A. and PIGGOTT, J.R. (2005) Sensory quality in retailed organic, free range and corn-fed chicken breast. Food Research International 38: 495-503.CrossRefGoogle Scholar
LE BIHAN-DUVAL, E., MILLET, N. and RÉMIGNON, H. (1999) Broiler meat quality: effect of selection for increased carcass quality and estimates of genetic parameters. Poultry Science 78: 822-826.CrossRefGoogle ScholarPubMed
LEWIS, P.D., PERRY, G.C., FARMER, L.J. and PATTERSON, R.L.S. (1997) Responses of two genotypes of chicken to the diets and stocking densities typical of UK and label rouge production systems; Performance. Behaviour and carcass composition. Meat Science 47: 501-516.CrossRefGoogle Scholar
LOCKIE, S. (2002) ‘The Invisible Mouth’: Mobilizing ‘the Consumer’ in Food Production-Consumption Networks. Sociologia Ruralis 42: 278-294CrossRefGoogle Scholar
MACRAE, V.E., MAHON, M., GILPIN, S., SANDERCOCK, D.A. and MITCHELL, M.A. (2006) Skeletal muscle fibre growth and growth associated myopathy in the domestic chicken (Gallus domesticus). British Poultry Science 47: 264-272.CrossRefGoogle ScholarPubMed
MCEACHERN, M.G. and SCHRÖDER, M.J.A. (2002) The role of livestock production ethics. Journal of Agricultural and Environmental Ethics 15: 221-237.CrossRefGoogle Scholar
MÈNARD, C. (1996) “On Clusters, Hybrids and Other Strange Forms: The Case of the French Poultry Industry” Journal of Institutional and Theoretical Economics 152, No.1, pp. 154-183.Google Scholar
MITCHELL, M.A, SANDERCOCK, D.A, HUNTER, R.R. and CARLISLE, A.J. (1999) Skeletal muscle damage following halothane anaesthesia in the domestic fowl: plasma biochemical responses. Research Veterinary Science 67: 59-64.CrossRefGoogle ScholarPubMed
MOHAN, B., NARAHARI, D., VENKATESAN, E.S. and JAYA PRASAD, I.A. (1987) The influence of age and sex on the chemical composition, tenderness and organoleptic characteristics of broiler meat. Cheiron 16: 145-151.Google Scholar
NETWORK FOR ANIMAL HEALTH AND WELFARE IN ORGANIC AGRICULTURE, (2002) Final recommendation and comments. http://www.veeru.reading.ac.uk/organic/.Google Scholar
O'KEEFE, S.F., PROUDFOOT, F.G. and ACKAN R.G., (1995) Lipid oxidation in meats of omega-3 fatty acid-enriched broiler chickens. Food Science Technology 28: 417-426.Google Scholar
OWENS, C.M., FANATICO, A.C., PILLAI, P.B., MEULLENET, J.F. and EMMERT, J.L. (2006) Evaluation of alternative genotypes and production systems for natural and organic poultry markets in the U.S Proceedings XII European Poultry Conference, Verona 10730.Google Scholar
PIETRZAK, M., GREASER, M.L. and SOSNICKI, A.A. (1997) Effect of rapid rigor mortis processes on protein functionality in pectoralis major muscle of domestic turkeys. Journal of Animal Science 75: 2106-2116.CrossRefGoogle ScholarPubMed
REITER, K. and BESSEI, W. (1996) Effect of the distance between feeder and drinker on behaviour and leg disorders of broilers. In: DUNCAN I.J.H., WIDOWSKI T.M., HALEY D.B. (Eds) Proceedings 30th ISAE International Congress, Guelph, Ontario, Canada,. 131. Centre for the Study of Animal Welfare.Google Scholar
SANDERCOCK, D.A., HUNTER, R.R., NUTE, G.R., MITCHELL, M.A. and HOCKING, P.M. (2001) Acute heat stress-induced alterations in blood acid-base status and skeletal muscle membrane integrity in broiler chickens at two ages: implications for meat quality. Poultry Science 80: 418-425.CrossRefGoogle ScholarPubMed
SCHÜTZ, K.E. and JENSEN, P. (2001) Effects of resource allocation on behavioural strategies: a comparison of red jungle fowl (Gallus gallus) and two domesticated breeds. Poultry Ethology 107: 753-765.CrossRefGoogle Scholar
SONAYIA, E.B. (1988) Fatty acid composition of broiler abdominal fat as influenced by temperature, diet, age and sex British Poultry Science 29: 589-595.CrossRefGoogle Scholar
SONAYIA, E.B. and OKEOWO, O.O. (1983) Live performance, abdominal fat, and toughness of 6-16 weeks old broiler. Journal of Animal Production Research 3: 103-114.Google Scholar
SONAYIA, E.B., RISTIC, M. and KLEIN, W.F. (1990) Effect of environmental temperature, dietary energy, age, sex on broiler carcase portions and palatability. British Poultry Science 31: 121-128.CrossRefGoogle Scholar
TAWFIK, E.S, OSMAN, A.M.A., RISTIC, M., HEBELER, W. and KLEIN, W.F. (1990) Effect of environmental temperature and growth, carcass traits and meat quality of broilers from both sexes and different ages. 4: Report, sensoric test of meat quality. Archiv für Geflügelkunde 54: 14-19.Google Scholar
TESSERAUD, S., CHAGNEAU, A.M. and GRIZARD, J. (2000) Muscle protein turnover during early development in chickens divergently selected for growth rate. Poultry Science 79: 1465-1471.CrossRefGoogle ScholarPubMed
TOMAS, F.M., PYM, R.A. and JOHNSON, R.J. (1991) Muscle protein turnover in chickens selected for increased growth rate, food consumption or efficiency of food utilisation: effects of genotype and relationship to plasma IGF-I and growth hormone. British Poultry Science 32: 363-376.CrossRefGoogle ScholarPubMed
TOURAILLE, C., KOPP, J., VALIN, C. and RICARD, F.H. (1981a) Chicken meat quality. 1: Influence of age and growth rate on physico-chemical and sensory characteristics of the meat. Archiv für Geflügelkunde 45: 69-76.Google Scholar
TOURAILLE, C., RICARD, F.H., KOPP, J., VALIN, C. and LECLERQ, B. (1981b) Chicken meat quality. 2: Changes with age of some physico-chemical and sensory characteristics of the meat . Archiv für Geflügelkunde 45: 97-104.Google Scholar
VERHOEF, P.C. (2005) Explaining purchases of organic meat by Dutch consumers. European Review of Agricultural Economics 32: 245-267.CrossRefGoogle Scholar
VERMEIR, I. and VERBEKE, W. (2006) Sustainable food consumption: exploring the consumer “attitude-behavioral intention” gap. Journal of Agricultural and Environmental Ethics 19: 169-194.CrossRefGoogle Scholar
VAN LAACK, R.L., LIU, C.H., SMITH, M.O. and LOVEDAY, H.D. (2000) Characteristics of pale, soft, exudative broiler breast meat. Poultry Science 79: 1057-1061.CrossRefGoogle ScholarPubMed
WEEKS, C.A., NICOL, C.J., SHERWIN, C.M. and KESTIN, S.C. (1994) Comparison of the behaviour of broiler chicken in indoor and free-range environments. Animal Welfare 3: 179-192.CrossRefGoogle Scholar
YAMASHITA, C., ISHIMOTO, Y., MEKADA, H., EBISAWA, S., MURAI, I. and NONAKA, S. (1976) Studies on meat quality of broilers. II: Influence of age of chickens on the meat taste. Japanese Poultry Science 13: 14-19.CrossRefGoogle Scholar