B. Ahmadipour, S. Z. Naeini, M. R. Sharifi, and F. Khajali, Growth Performance and Right Ventricular Hypertrophy Responses of Broiler Chickens to Guanidinoacetic Acid Supplementation under Hypobaric Hypoxia, The Journal of Poultry Science, vol.55, issue.1, pp.60-64, 2018.

J. Y. An, J. X. Zheng, J. Y. Li, D. Zeng, L. J. Qu et al., Effect of myofiber characteristics and thickness of perimysium and endomysium on meat tenderness of chickens, Poultry Science, vol.89, issue.8, pp.1750-1754, 2010.

N. Alnahhas, C. Berri, M. Chabault, P. Chartrin, M. Boulay et al., Genetic parameters of white striping in relation to body weight, carcass composition, and meat quality traits in two broiler lines divergently selected for the ultimate pH of the pectoralis major muscle, BMC Genetics, vol.17, issue.1, p.61, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02636800

A. Eurolysine and S. A. , Amino acid solutions for lower crude protein levels in broiler feeds, Go To Essentials, vol.38, pp.6-54, 2015.

E. R. Mcgill, Effects of low crude protein diets with amino acid supplementation on broiler performance in the starter period

P. S. Agostini, R. R. Santos, D. R. Khan, D. Siebert, and P. Van-der-aar, The optimum valine: lysine ratios on performance and carcass traits of male broilers based on different regression approaches, Poultry Science, vol.98, issue.3, pp.1310-1320, 2019.

R. Angel, W. W. Saylor, A. D. Mitchell, W. Powers, and T. J. Applegate, Effect of dietary phosphorus, phytase, and 25-hydroxycholecalciferol on broiler chicken bone mineralization, litter phosphorus, and processing yields, Poultry Science, vol.85, issue.7, pp.1200-1211, 2006.

. Aviagen, Broiler performance objectives, 2012.

. Aviagen, Ross 708 Broiler: Nutrient Specifications, 2014.

. Aviagen, Ross 308/Ross 308 FF : Performances Objectives, pp.1-14, 2019.

. Aviagen, Myofibrillar Myopathies and Other Myopathies with Rimmed Vacuoles, Muscle Biopsy, pp.361-388, 2020.

D. H. Baker, A. B. Batal, T. M. Parr, N. R. Augspurger, and C. M. Parsons, Ideal ratio (relative to lysine) of tryptophan, threonine, isoleucine, and valine for chicks during the second and third weeks posthatch, Poultry Science, vol.81, issue.4, pp.485-494, 2002.

P. Belloir, B. Méda, W. Lambert, E. Corrent, H. Juin et al., Reducing the CP content in broiler feeds: impact on animal performance, meat quality and nitrogen utilization, animal, vol.11, issue.11, pp.1881-1889, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01607173

L. E. Bernal, F. C. Tavernari, G. R. Lelis, L. F. Albino, and H. S. Rostagno, Nutritional requirements of digestible methionine + cystine of Cobb 500 broiler chickens, World's Poultry Science Journal, 2012.

L. E. Bernal, F. C. Tavernari, G. R. Lelis, H. S. Rostagno, and L. F. Albino, Nutritional requirement of digestible lysine for Cobb 500 broiler chicken, World's Poultry Science Journal, 2012.

S. F. Bilgili, Broiler chicken myopathies: IV stringy/mushy breast, Worthwhile Operational Guidelines and Suggestion, 2015.

B. C. Bodle, C. Alvarado, R. B. Shirley, Y. Mercier, and J. T. Lee, Evaluation of different dietary alterations in their ability to mitigate the incidence and severity of woody breast and white striping in commercial male broilers, Poultry Science, vol.97, issue.9, pp.3298-3310, 2018.

P. L. Dawson and N. Spinelli, Poultry Meat Flavor, Handbook of Meat, Poultry and Seafood Quality, pp.341-359, 2012.

B. Carré, B. Méda, and H. Juin, Bénéfices et contraintes de la sélection génétique du poulet de chair pour une croissance rapide, INRA Productions Animales, vol.28, issue.4, pp.305-314, 2020.

H. S. Cemin, S. L. Vieira, C. Stefanello, M. Kipper, L. Kindlein et al., Digestible lysine requirements of male broilers from 1 to 42 days of age reassessed, PLOS ONE, vol.12, issue.6, p.e0179665, 2017.

R. Chen, S. Zhuang, Y. P. Chen, Y. F. Cheng, C. Wen et al., Betaine improves the growth performance and muscle growth of partridge shank broiler chickens via altering myogenic gene expression and insulin-like growth factor-1 signaling pathway, Poultry Science, vol.97, issue.12, pp.4297-4305, 2018.

D. L. Clark, K. G. Walter, and S. G. Velleman, Incubation temperature and time of hatch impact broiler muscle growth and morphology, Poultry Science, vol.96, issue.11, pp.4085-4095, 2017.

H. A. Córdova-noboa, E. O. Oviedo-rondón, A. H. Sarsour, J. Barnes, P. Ferzola et al., Performance, meat quality, and pectoral myopathies of broilers fed either corn or sorghum based diets supplemented with guanidinoacetic acid, Poultry Science, vol.97, issue.7, pp.2479-2493, 2018.

R. F. Cruz, S. L. Vieira, L. Kindlein, M. Kipper, H. S. Cemin et al., Occurrence of white striping and wooden breast in broilers fed grower and finisher diets with increasing lysine levels, Poultry Science, vol.96, issue.2, pp.501-510, 2017.

D. Zotte, A. Tasionero, G. Russo, E. Longoni, C. Cecchinato et al., Impact of coccidiosis control program and feeding plan on white striping prevalence and severity degree on broiler breast fillets evaluated at three growing ages, Poultry Science, vol.94, pp.2114-2123, 2015.

A. Deep, K. Schwean-lardner, T. G. Crowe, B. I. Fancher, and H. L. Classen, Effect of light intensity on broiler production, processing characteristics, and welfare, Poultry Science, vol.89, issue.11, pp.2326-2333, 2010.

R. N. Dilger, K. Bryant-angeloni, R. L. Payne, A. Lemme, and C. M. Parsons, Dietary guanidino acetic acid is an efficacious replacement for arginine for young chicks, Poultry Science, vol.92, issue.1, pp.171-177, 2013.

T. T. Santos, S. C. Dassi, C. R. Franco, C. R. Costa, S. A. Lee et al., Influence of fibre and betaine on development of the gastrointestinal tract of broilers between hatch and 14 d of age, Animal Nutrition, vol.5, issue.2, pp.163-173, 2019.

W. A. Dozier, A. Corzo, M. T. Kidd, and M. W. Schilling, Dietary Digestible Lysine Requirements of Male and Female Broilers from Forty-Nine to Sixty-Three Days of Age, Poultry Science, vol.87, issue.7, pp.1385-1391, 2008.

W. A. Dozier, M. T. Kidd, and A. Corzo, Dietary Amino Acid Responses of Broiler Chickens, Journal of Applied Poultry Research, vol.17, issue.1, pp.157-167, 2008.

I. Erian and C. Phillips, Public Understanding and Attitudes towards Meat Chicken Production and Relations to Consumption, Animals, vol.7, issue.12, p.20, 2017.

, Scientific Opinion on the safety and efficacy of L-valine (ValAMINO®) produced by Corynebacterium glutamicum (DSM 25202) for all animal species, based on a dossier submitted by Evonik Industries AG, EFSA Journal, vol.12, issue.7, p.3795, 2014.

S. Ghanbari, Y. Ebrahimnaz, B. Eshratkhah, and K. Nazeradl, Effect of Dietary Chromium Supplementation on Performance and Carcass Traits of Broiler Chicks, Pakistan Journal of Nutrition, vol.11, issue.5, pp.467-472, 2012.

R. Reyes and C. Reyes, At Your Defense, Emergency Medicine News, vol.39, issue.2, p.19, 2017.

. Franceagrimer, Ralentissement de la baisse des parts de l'UE sur les marchés mondiaux d'exportation de produits laitiers durant la période couverte par les Perspectives, 2012.

R. M. Gous, Nutritional limitations on growth and development in poultry, Livestock Science, vol.130, issue.1-3, pp.25-32, 2010.

G. Harash, K. C. Richardson, Z. Alshamy, H. Hünigen, H. M. Hafez et al., Heart ventricular histology and microvasculature together with aortic histology and elastic lamellar structure: A comparison of a novel dual-purpose to a broiler chicken line, PLOS ONE, vol.14, issue.3, p.e0214158, 2019.

J. Heger, J. Zelenka, V. Machander, C. De-la-cruz, M. Le?ták et al., Effects of Guanidinoacetic Acid Supplementation to Broiler Diets With Varying Energy Content, Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, vol.62, issue.3, pp.477-485, 2014.

M. Hilliar, N. Huyen, C. K. Girish, R. Barekatain, S. Wu et al., Supplementing glycine, serine, and threonine in low protein diets for meat type chickens, Poultry Science, vol.98, issue.12, pp.6857-6865, 2019.

J. C. Huang, J. Yang, M. C. Huang, K. J. Chen, X. L. Xu et al., The effects of electrical stunning voltage on meat quality, plasma parameters, and protein solubility of broiler breast meat, Poultry Science, vol.96, issue.3, pp.764-769, 2017.

V. Michel, C. Arnould, L. Mirabito, and D. Guemene, Systèmes de production et bien-être en élevage de poules pondeuses, INRAE Productions Animales, vol.20, issue.1, pp.47-52, 2020.

, Situation des émigrés marocains sur le marché du travail, ITAVI, pp.1-13, 2017.

A. Kiani and U. K. Von-borstel, Impact of different group sizes on plumage cleanliness and leg disorders in broilers, Livestock Science, vol.221, pp.52-56, 2019.

M. T. Kidd, C. D. Mcdaniel, S. L. Branton, E. R. Miller, B. B. Boren et al., Increasing Amino Acid Density Improves Live Performance and Carcass Yields of Commercial Broilers, Journal of Applied Poultry Research, vol.13, issue.4, pp.593-604, 2004.

M. T. Kidd and P. B. Tillman, Key principles concerning dietary amino acid responses in broilers, Animal Feed Science and Technology, vol.221, pp.314-322, 2016.

V. A. Kuttappan, V. B. Brewer, A. Mauromoustakos, S. R. Mckee, J. L. Emmert et al., Estimation of factors associated with the occurrence of white striping in broiler breast fillets, Poultry Science, vol.92, issue.3, pp.811-819, 2013.

V. A. Kuttappan, V. B. Brewer, J. K. Apple, P. W. Waldroup, and C. M. Owens, Influence of growth rate on the occurrence of white striping in broiler breast fillets, Poultry Science, vol.91, issue.10, pp.2677-2685, 2012.

V. A. Kuttappan, V. B. Brewer, A. Mauromoustakos, S. R. Mckee, J. L. Emmert et al., Estimation of factors associated with the occurrence of white striping in broiler breast fillets, Poultry Science, vol.92, issue.3, pp.811-819, 2013.

S. Laisse, R. Baumont, L. Dusart, D. Gaudré, B. Rouillé et al., L?efficience nette de conversion des aliments par les animaux d?élevage : une nouvelle approche pour évaluer la contribution de l?élevage à l?alimentation humaine, INRA Productions Animales, vol.31, issue.3, pp.269-288, 2019.

M. L. Livingston, C. D. Landon, H. J. Barnes, and J. Brake, White striping and wooden breast myopathies of broiler breast muscle is affected by time-limited feeding, genetic background, and egg storage, Poultry Science, vol.98, issue.1, pp.217-226, 2019.

M. Lorenzi, S. Mudalal, C. Cavani, and M. Petracci, Incidence of white striping under commercial conditions in medium and heavy broiler chickens in Italy, Journal of Applied Poultry Research, vol.23, issue.4, pp.754-758, 2014.

A. Mahdavi, M. Shivazad, F. Alemi, M. Zaghari, H. Moravej et al., Digestible lysine requirement of broilers based on practical diet, Italian Journal of Animal Science, vol.11, issue.1, p.e13, 2012.

M. Mahmoudi, A. Azarfar, and H. Khosravinia, Partial Replacement of Dietary Methionine with Betaine and Choline in Heat-Stressed Broiler Chickens, The Journal of Poultry Science, vol.55, issue.1, pp.28-37, 2018.

Y. Malila, J. U-chupaj, Y. Srimarut, P. Chaiwiwattrakul, T. Uengwetwanit et al., Monitoring of white striping and wooden breast cases and impacts on quality of breast meat collected from commercial broilers (Gallus gallus), Asian-Australasian Journal of Animal Sciences, vol.31, issue.11, pp.1807-1817, 2018.

K. J. Meloche, B. I. Fancher, D. A. Emmerson, S. F. Bilgili, and W. A. Dozier, Effects of reduced dietary energy and amino acid density on Pectoralis major myopathies in broiler chickens at 36 and 49 days of age, Poultry Science, vol.97, issue.5, pp.1794-1807, 2018.

K. J. Meloche, B. I. Fancher, D. A. Emmerson, S. F. Bilgili, and W. A. Dozier, Effects of reduced digestible lysine density on myopathies of the Pectoralis major muscles in broiler chickens at 48 and 62 days of age, Poultry Science, vol.97, issue.9, pp.3311-3324, 2018.

J. Nasr and F. Kheiri, Effects of lysine levels of diets formulated based on total or digestible amino acids on broiler carcass composition, Revista Brasileira de Ciência Avícola, vol.14, issue.4, pp.249-258, 2012.

M. Petracci, S. Mudalal, A. Bonfiglio, and C. Cavani, Occurrence of white striping under commercial conditions and its impact on breast meat quality in broiler chickens, Poultry Science, vol.92, issue.6, pp.1670-1675, 2013.

M. Petracci, S. Mudalal, E. Babini, and C. Cavani, Effect of White Striping on Chemical Composition and Nutritional Value of Chicken Breast Meat, Italian Journal of Animal Science, vol.13, issue.1, p.3138, 2014.

M. Petracci, F. Soglia, and C. Berri, Muscle Metabolism and Meat Quality Abnormalities, Poultry Quality Evaluation, pp.51-75, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01604886

M. Petracci, F. Soglia, M. Madruga, L. Carvalho, E. Ida et al., Wooden-Breast, White Striping, and Spaghetti Meat: Causes, Consequences and Consumer Perception of Emerging Broiler Meat Abnormalities, Comprehensive Reviews in Food Science and Food Safety, vol.18, issue.2, pp.565-583, 2019.

A. Ratriyanto and R. Mosenthin, Osmoregulatory function of betaine in alleviating heat stress in poultry, Journal of Animal Physiology and Animal Nutrition, vol.102, issue.6, pp.1634-1650, 2018.

J. Ross and P. Evans, Library management systems, Handbook of information management, pp.369-394

E. Russo, M. Drigo, C. Longoni, R. Pezzotti, P. Fasoli et al., Evaluation of White Striping prevalence and predisposing factors in broilers at slaughter, Poultry Science, vol.94, issue.8, pp.1843-1848, 2015.

A. Selmi, P. B. Joly, and M. Remondet, La construction d?un « animal nouveau » : la sélection génétique entre production de savoirs, marchés et action collective, Natures Sciences Sociétés, vol.22, issue.1, pp.33-41, 2014.

M. Shakeri, J. Cottrell, S. Wilkinson, M. Ringuet, J. B. Furness et al., Betaine and Antioxidants Improve Growth Performance, Breast Muscle Development and Ameliorate Thermoregulatory Responses to Cyclic Heat Exposure in Broiler Chickens, Animals, vol.8, issue.10, p.162, 2018.

N. K. Sharma, M. Choct, M. Toghyani, Y. C. Laurenson, C. K. Girish et al., Dietary energy, digestible lysine, and available phosphorus levels affect growth performance, carcass traits, and amino acid digestibility of broilers, Poultry Science, vol.97, issue.4, pp.1189-1198, 2018.

P. B. Siegel, Evolution of the Modern Broiler and Feed Efficiency, Annual Review of Animal Biosciences, vol.2, issue.1, pp.375-385, 2014.

H. K. Sihvo, K. Immonen, and E. Puolanne, Myodegeneration With Fibrosis and Regeneration in the Pectoralis Major Muscle of Broilers, Veterinary Pathology, vol.51, issue.3, pp.619-623, 2013.

F. Sirri, G. Maiorano, S. Tavaniello, J. Chen, M. Petracci et al., Effect of different levels of dietary zinc, manganese, and copper from organic or inorganic sources on performance, bacterial chondronecrosis, intramuscular collagen characteristics, and occurrence of meat quality defects of broiler chickens, Poultry Science, vol.95, issue.8, pp.1813-1824, 2016.

A. Trocino, A. Piccirillo, M. Birolo, G. Radaelli, D. Bertotto et al., Effect of genotype, gender and feed restriction on growth, meat quality and the occurrence of white striping and wooden breast in broiler chickens, Poultry Science, vol.94, issue.12, pp.2996-3004, 2015.

A. Trocino, A. Pascual, M. Birolo, and G. Xiccato, Rearing factors affecting myopathy rate and meat quality in broiler chickens, Proceedings of the XVth European Poultry Conference, p.121, 2018.

J. Van-harn, M. A. Dijkslag, and M. M. Van-krimpen, Glycine plus serine requirement of broilers fed low-protein diets : a dose response study, 2018.

A. Yousaf, A. Jabbar, N. Rajput, A. Memon, R. Shahnawaz et al., Effect of Environmental Heat Stress on Performance and Carcass Yield of Broiler Chicks, Journal of World's Poultry Research, vol.9, issue.1, pp.26-30, 2019.

G. Zaboli, X. Huang, X. Feng, and D. U. Ahn, How can heat stress affect chicken meat quality? ? a review, Poultry Science, vol.98, issue.3, pp.1551-1556, 2019.

P. Zambonelli, M. Zappaterra, F. Soglia, M. Petracci, F. Sirri et al., Detection of differentially expressed genes in broiler pectoralis major muscle affected by White Striping ? Wooden Breast myopathies, Poultry Science, vol.95, issue.12, pp.2771-2785, 2016.

M. Zampiga, F. Soglia, M. Petracci, A. Meluzzi, and F. Sirri, Effect of different arginine-to-lysine ratios in broiler chicken diets on the occurrence of breast myopathies and meat quality attributes, Poultry Science, vol.98, issue.6, pp.2691-2697, 2019.

W. Zhai, L. F. Araujo, S. C. Burgess, A. M. Cooksey, K. Pendarvis et al., Protein expression in pectoral skeletal muscle of chickens as influenced by dietary methionine, Poultry Science, vol.91, issue.10, pp.2548-2555, 2012.

A. D. Zotte, G. Tasoniero, E. Russo, C. Longoni, and M. Cecchinato, Impact of coccidiosis control program and feeding plan on white striping prevalence and severity degree on broiler breast fillets evaluated at three growing ages, Poultry Science, vol.94, pp.2114-2123, 2015.

. Agreste, Graphique 2.29. La croissance de la consommation indienne de viande s?explique en grande partie par la consommation de volaille, vol.337

E. Baéza, M. Bourin, and C. Berri, Données sur les migrations: Comparabilité, qualité, limites, Etat de la migration dans le monde, pp.237-241, 2010.

, Scénarios et simulations pour le riz en fonction du changement climatique, FAO, 2014.

, Les importations chinoises de produits laitiers continuent d'augmenter sur la période couverte par les projections, FAO, 2014.

. Franceagrimer, Tableau I.4. Les prix réels des logements décroissent sur certains marchés

L. Monde, État de la Population Mondiale 1999, La population mondiale atteindra 9,8 milliards d'habitants en 2050, 2000.

V. Chatellier, P. Magdelaine, and Y. Trégaro, La compétitivité de la filière volaille de chair française : entre doutes et espoirs, INRA Productions Animales, vol.28, issue.5, pp.411-428, 2020.

. Ocde/fao, Pays contribuant le plus à l'augmentation de la production par type de viande, 2018.

R. Volaille, L'Anvol veut faire front commun face à l'Agribashing, 2019.

R. Volaille, Le groupe Avril a annoncé la fin des oeufs produits en cage d'ici 2025, 2019.

. Techna, Améliorer l'utilisation des infrastructures pour réduire les coûts de la congestion et les conséquences pour l'environnement, Comment améliorer les indices et réduire les coûts alimentaires en volaille ? Récupéré sur, 2013.

G. Le-pottier, Les contrôles officiels en matière de santé publique vétérinaire dans la filière volaille, Bulletin de l'Académie Vétérinaire de France, issue.3, 2018.