Does hunted wild boar meat meet modern consumer nutritional expectations?
https://doi.org/10.4081/ijfs.2024.11608
Accepted: 11 December 2023
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The present study aimed to evaluate the nutritional characteristics of hunted wild boar (WB) meat and compare them with those of meat from analogous domestic animals (pigs) reared in two different rearing systems: indoor-intensive (PI) and outdoor-extensive (PO). WB meat showed a lower amount of lipid content compared to pork and a higher antioxidant activity compared to PI and PO. The comparison of the fatty acid composition of WB and domestic pig reveals significant differences in saturated fatty acids (SFA) and polyunsaturated fatty acids (PUFA), with WB having the highest PUFA level and the lowest SFA. The omega 6/omega 3 (n-6/n-3) PUFA ratio, PUFA/SFA, atherogenic and thrombogenic indices (AI and TI), as well as the hypocholesterolemic/hypercholesterolemic index (h/H), were calculated. The n-6/n-3 PUFA ratio was higher in pork independently of the rearing system. The PUFA/SFA ratio of WB meat was above the minimum ratio of 0.40 recommended to contribute to a reduction in the risk of coronary diseases in pork from both rearing systems. AI and TI were lower in WB meat compared to commercially reared pigs, while h/H was higher in WB in comparison with pork meat. WB meat shows good nutritional quality; therefore, the use of game meat as a food source could be appropriate and could benefit contemporary consumers looking for “green” and high-nutritional products.
AOAC, 2000. Official Methods of Analysis, 17th ed. AOAC International, Arlington, VA, USA.
Branciari R, Franceschini R, Roila R, Valiani A, Pecorelli I, Piersanti A, Haouet N, Framboas M, Ranucci D, 2020. Nutritional value and contaminant risk assessment of some commercially important fishes and crawfish of Lake Trasimeno, Italy. Int J Environ Res Pub Health 17:2545.
Branciari R, Ranucci D, Trabalza-Marinucci M, Codini M, Orru M, Ortenzi R, Forte C, Ceccarini MR, Valiani A, 2015. Evaluation of the antioxidant properties and oxidative stability of Pecorino cheese made from the raw milk of ewes fed Rosmarinus officinalis L. leaves. Int J Food Sci Tech 50:558-65.
Branciari R, Ranucci D, Urbani E, Valiani A, Trabalza-Marinucci M, Dal Bosco A, Franceschini R, 2017. Freshwater fish burgers made from four different fish species as a valuable strategy appreciated by consumers for introducing EPA and DHA into a human diet. J Aquat Food Prod Technol 26:686-94.
Chen J, Liu H, 2020. Nutritional indices for assessing fatty acids: a mini-review. Int J Mol Sci 21:5695.
Ciobanu MM, Postolache AN, Lipşa FD, Munteanu M, Rațu RN, Murariu OC, Boișteanu PC, 2022. Meat fatty acid composition of wild boars hunted in Romania in relationship to gender and age-class. Animals 12:810.
Corradini A, Marescotti M E, Demartini E, Gaviglio A, 2022. Consumers’ perceptions and attitudes toward hunted wild game meat in the modern world: a literature review. Meat Sci 194:108955.
Czarniecka-Skubina E, Stasiak D M, Latoch A, Owczarek T, Hamulka J, 2022. Consumers’ perception and preference for the consumption of wild game meat among adults in Poland. Foods 11:830.
Demartini E, Vecchiato D, Marescotti ME, Gibbert M, Viganò R, Giacomelli S, Gaviglio A, 2021. The more you know: the equivocal effects of prior knowledge on preferences for hunted vs. farmed wild boar meat. Int J Gastron Food Sci 24:100325.
Edwards SA, 2005. Product quality attributes associated with outdoor pig production. Livest Prod Sci 94:5-14
European Parliament, Council of the European Union, 2004. Regulation (EC) N° 853/2004 of the European Parliament and of the Council of 29 April 2004 laying down specific hygiene rules for the hygiene of foodstuffs. In: Official Journal, L139/55, 30/4/2004.
Fernandes CE, Vasconcelos MAS, Ribeiro MA, Sarubbo LA, Andrade SAC, de Melo Filho AB, 2014. Nutritional and lipid profiles in marine fish species from Brazil. Food Chem 160:67-71.
Fernández M, Ordóñez JA, Cambero I, Santos C, Pin C, de la Hoz L, 2007. Fatty acid compositions Fatty acid compositions of selected varieties of Spanish dry ham related to their nutritional implications. Food Chem 101:107-12.
Franco D, Vazquez JA, Lorenzo JM, 2014. Growth performance, carcass and meat quality of the Celta pig crossbred with Duroc and Landrance genotypes. Meat Sci 96:195-202.
Gerster H, 1998. Can adults adequately convert a-linolenic acid (18: 3n-3) to eicosapentaenoic acid (20: 5n-3) and docosahexaenoic acid (22: 6n-3)?. Int J Vitam Nutr Res 68:159-73.
Hoffman LC, Wiklund E, 2006. Game and venison - meat for the modern consumer. Meat Sci 74:197-208.
Högberg A, Pickova J, Babol J, Andersson K, Dutta PC, 2002. Muscle lipids, vitamins E and A, and lipid oxidation as affected by diet and RN genotype in female and castrated male Hampshire crossbreed pigs. Meat Sci 60:411-20.
Marescotti ME, Demartini E, Gibbert M, Viganò R, Gaviglio A, 2021. Disentangling individual phases in the hunted vs. farmed meat supply chain: exploring hunters’ perceptions in Italy. Foods 10:174.
Marsico G, Forcelli MG, Tarricone S, Rasulo A, Pinto F, Celi R, 2007. Qualità delle carni di cinghiale allevato e selvatico. Prog Nutr 9:248-5. [Article in Italian].
McAfee AJ, McSorley EM, Cuskelly GJ, Moss BW, Wallace JMW, Bonham MP, Fearon AM, 2010. Red meat consumption: an overview of the risks and benefits. Meat Sci 8:1-13.
Needham T, Bureš D, Černý J, Hoffman LC, 2023. Overview of game meat utilisation challenges and opportunities: a European perspective. Meat Sci 204:109284.
Pedrazzoli M, Dal Bosco A, Castellini C, Ranucci D, Mattioli S, Pauselli M, Roscini V, 2017. Effect of age and feeding area on meat quality of wild boars. Ital J Animal Sci 16:353-62.
Pires MA, Rodrigues I, Barros JC, Carnauba G, de Carvalho FA, Trindade MA, 2020. Partial replacement of pork fat by Echium oil in reduced sodium bologna sausages: technological, nutritional and stability implications. J Sci Food Agric 100:410-20.
Quaresma MAG, Alves SP, Trigo-Rodrigues I, Pereira-Silva R, Santos, N,Lemos JPC, Barreto AS, Bessa RJB, 2011. Nutritional evaluation of the lipid fraction of feral wild boar (Sus scrofa scrofa) meat. Meat Sci 89:457-61.
Ramanzin M, Amici A, Casoli C, Esposito L, Lupi P, Marsico G, Mattiello S, Olivieri O, Ponzetta MP, Trabalza-Marinucci M, 2010. Meat from wild ungulates: ensuring quality and hygiene of an increasing resource. Ital J Anim Sci 9:e61.
Ranucci D, Roila R, Onofri A, Cambiotti F, Primavilla S, Miraglia D, Andoni E, Di Cerbo A, Branciari R, 2021. Improving hunted wild boar carcass hygiene: Roles of different factors involved in the harvest phase. Foods 10:1548.
Razmaite VJ, Svirmickas G, Siukscius A, 2012. Effect of weight, sex and hunting period on fatty acid composition of intramuscular and subcutaneous fat from wild boar. Ital J Anim Sci 11:e32.
Reitznerová A, Semjon B, Bartkovský M, Šuleková M, Nagy J, Klempová T, Marcinčák S, 2023. Comparison of lipid profile and oxidative stability of vacuum-packed and longtime-frozen fallow deer, wild boar, and pig meat. Appl Sci 13:4059.
Renaudeau D, Mourot J, 2007. A comparison of carcass and meat quality characteristics of Creole and Large White pigs slaughtered at 90 kg BW. Meat Sci 76:165-71.
Rey AI, Daza A, López-Carrasco C, López-Bote CJ, 2006. Feeding Iberian pigs with acorns and grass in either free-range or confinement affects the carcass characteristics and fatty acids and tocopherols accumulation in Longissimus dorsi muscle and backfat. Meat Sci 73:66-74.
Roila R, Branciari R, Primavilla S, Miraglia D, Vercillo F, Ranucci D, 2021. Microbial, physicochemical and sensory characteristics of salami produced from wild boar (Sus scrofa). Potravinarstvo 15:475-83.
Sales J, Kotrba R, 2013. Meat from wild boar (Sus scrofa L.): a review. Meat Sci 94:187-201.
SAS, 2010. JMP® 9 basic analysis and graphing; SAS Publishing, Cary, NC, USA.
Schley L, Roper TJ, 2003. Diet of wild boar Sus scrofa in Western Europe, with particular reference to consumption of agricultural crops. Mammal Rev 33:43-56.
Tejerina D, García-Torres S, De Vaca MC, Vázquez FM, Cava R, 2012. Effect of production system on physical-chemical, antioxidant and fatty acids composition of Longissimus dorsi and Serratus ventralis muscles from Iberian pig. Food Chem 133:293-9.
Ulbricht TLV, Southgate D AT, 1991. Coronary heart disease: seven dietary factors. Lancet 338:985-92.
Umbria Region, 2017. Determinazione dirigenziale n. 9464, 19/09/2017. [Material in Italian].
Viganò R, Demartini E, Riccardi F, Corradini A, Besozzi M, Lanfranchi P, Chiappini PL, Cottini A, Gaviglio A, 2019. Quality parameters of hunted game meat: sensory analysis and pH monitoring. Ital J Food Saf 8:7724.
Wołoszyn J, Haraf G, Okruszek A, Werenska M, Goluch Z, Teleszko M, 2020. Fatty acid profiles and health lipid indices in the breast muscles of local Polish goose varieties. Poult Sci 99:1216-24.
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