The Impact of Feeding Strategies to Reduce the Heat Stress in Broiler Production


Authors

  • Agnès Osei-Adjei Department of Animal Science, Faculty of Agriculture, Kwame Nkrumah University of Science and Technology, Kumasi, Ghana
  • Armstrong Donkoh Department of Animal Science, Faculty of Agriculture, Kwame Nkrumah University of Science and Technology, Kumasi, Ghana
  • Goodman Kantanka Sarfo Department of Animal Science, Faculty of Agriculture, Kwame Nkrumah University of Science and Technology, Kumasi, Ghana
  • Jacob Alhassani Hamidu Department of Animal Science, Faculty of Agriculture, Kwame Nkrumah University of Science and Technology, Kumasi, Ghana https://orcid.org/0000-0003-0043-3474

DOI:

https://doi.org/10.3923/ijps.2023.138.148

Keywords:

<i>Ad libitum</i> feeding, <i>Tetrapluera</i> tetraptera, broiler growth rate, feed plus oil, feed withdrawal, hematology

Abstract

Objective: This study aimed to evaluate feeding strategies to increase broiler growth rate, reduce heat stress and improve welfare. Materials and Methods: A total of 240 Cobb 500 day-old chicks were distributed in a completely randomized design in a factorial arrangement (3×2) forming 3 treatments: T1 (control-ad libitum feeding), T2 (feed withdrawn between 11 am to 4 pm daily) and T3 (ad libitum feed +1% palm oil) and (2 levels of water treatments: P1 (plain portable water) and P2 (Tetrapluera tetraptera powder dissolved in water, as organic anti-heat stressor). Data on growth rate, carcass analysis and blood biochemical parameters were collected. Data were analyzed using the generalized linear model (GLM) procedure of SAS. The level of statistical significance was set at p<0.05. Results: The results showed that the total feed consumption, final body weight and weight gain were higher in T3 than that of T1. Both the major and full breast muscle weights for T3 was higher than those of T1 and T2. The carcass parameters were not affected by feeding strategy, water treatment, or their interactions, except for head and full gizzard weights. Platelet counts for T3 was higher but mean platelet volume (MVP) and platelet large cell ratio (PLCR) was higher for T1 than that of T3. The MVP was also higher for P1 than that of P2. Conclusion: The results showed that feeding strategies influenced broiler growth more than water treatment. Prekese had phytochemicals that have inhibitory effects on respiratory illnesses and coccidiosis, such as saponins, flavonoids, polyphenols and tannins.

References

Mengesha, M., 2011. Climate change and the preference of rearing poultry for the demands of protein foods. Asian J. Poult. Sci., 5: 135-143.

Taruvinga, A., V. Muchenje and A. Mushunje, 2013. Climate change impacts and adaptations on small-scale livestock production. Int. J. Dev. Sustainability, 2: 664-685.

Donkoh, A. and C.C. Atuahene, 1988. Management of environmental temperature and rations for poultry production in the hot and humid tropics. Int. J. Biometeorol., 32: 247-253.

Donkoh, A., 1989. Ambient temperature: A factor affecting performance and physiological response of broiler chickens. Int. J. Biometeorol., 33: 259-265.

Gous, R.M. and T.R. Morris, 2005. Nutritional interventions in alleviating the effects of high temperatures in broiler production. World's Poult. Sci. J., 61: 463-475.

S.S. Diarra and P. Tabuaciri, 2015. Feeding management of poultry in high environmental temperatures. Int. J. Poult. Sci., 13: 657-661.

Suganya, T., S. Senthilkumar, K. Deepa and R. Amutha, 2015. Nutritional management to alleviate heat stress in broilers. Int. J. Sci. Environ. Technol., 4: 661-666.

Yalcin, S., S. Ozkan, L. Turkmut and P.B. Siegel, 2001. Responses to heat stress in commercial and local broiler stocks. 1. Performance traits. Br. Poult. Sci., 42: 149-152.

Zhang, Z.Y., G.Q. Jia, J.J. Zuo, Y. Zhang, J. Lei, L. Ren and D.Y. Feng, 2012. Effects of constant and cyclic heat stress on muscle metabolism and meat quality of broiler breast fillet and thigh meat. Poult. Sci., 91: 2931-2937.

Bessah, E., W. Amponsah, S.O. Ansah, A. Afrifa and B. Yahaya et al., 2022. Climatic zoning of Ghana using selected meteorological variables for the period 1976–2018. Meteorolog. Appl., Vol. 29.

Adomako, K., 2009. Local domestic chickens: Their potential and improvement. Ph.D. Thesis, University of Science and Technology.

AREC, 2018. Animal Research Ethics Committee (AREC) Standard Operating Procedures. KNUST Engineering Education Project. https://keep.knust.edu.gh/node/75

Koudijs Animal Nutrition B.V, 2020. The premium prestarter for healthy growing chicks and optimal performance. Terratiga Nigeria Limited. https://www.terratiga.com/wp-content/uploads/2020/06/Brochure-Poultry-Galdus.pdf

NRC., 1994. Nutrient Requirements of Poultry. 9th Edn., National Academy Press, Washington, DC., USA., ISBN-13: 9780309048927, Pages: 176.

AOAC, 2000. Official Method of the Association of Official Analytical Chemists. 17th Edn., AOAC, Washington, DC., USA., pp: 21-447.

SAS., 2012. Base SAS® 9.4 procedures guide. SAS Institute Inc., Cary, North Carolina, USA.

Akin-Idowu, P.E., D.O. Ibitoye, O.T. Ademoyegun and O.T. Adeniyi, 2011. Chemical composition of the dry fruit of Tetrapleura tetraptera and its potential impact on human health. J. Herbs Spices Med. Plants, 17: 52-61.

Valenzuela-Grijalva, N.V., A. Pinelli-Saavedra, A. Muhlia-Almazan, D. Domínguez-Díaz and H. González-Ríos, 2017. Dietary inclusion effects of phytochemicals as growth promoters in animal production. J. Anim. Sci. Technol., Vol. 59.

Okwu, D.E., 2003. The potentials of Ocimum gratissimum, Pengluria extensa and Tetrapleura tetraptera as spice and flavouring agents. Nig. Agric. J., 34: 143-148.

Hake, D.V., A.S. Ranade, D.N. Desai, M.B. Patil, P.E. Avari, D.S. Patwardhan and A.P. Adsul, 2005. Use of different vegetable oils in broiler. J. Bombay Vet. Coll., 13: 5-7.

Ayed, H.B., H. Attia and M. Ennouri, 2015. Effect of oil supplemented diet on growth performance and meat quality of broiler chickens. Adv. Tech. Biol. Med., Vol. 4.

Das, G.B., M.E. Hossain, M.M. Islam and M.A. Akbar, 2014. Meat yield characteristics of broiler fed different levels of palm oil. Bangladesh J. Anim. Sci., 43: 112-117.

Das, G.B., M.E. Hossain and M.A. Akbar, 2014. Effects of different oils on productive performance of broiler. Iran. J. Applied Anim. Sci., 4: 111-116.

Mahmood, S., S. Hassan, F. Ahmed, M. Ashraf, M. Alam and A. Muzaffar, 2005. Influence of feed withdrawal for different durations on performance of broilers in summer. Int. J. Agric. Biol., 7: 975-978.

Essien, C.A., 2021. Effects of Tetrapleura tetraptera on performance, carcass characteristics and organ indices of broiler chickens. Anim. Res. Int., 18: 4134-4144.

Zhang, W., S. Xiao, H. Samaraweera, E.J. Lee and D.U. Ahn, 2010. Improving functional value of meat products. Meat Sci., 86: 15-31.

Amadbr, A. and K. Zentek, 2013. Effects of a phytogenic feed additive on growth performance, selected blood
criteria and jejunal morphology in broiler chickens. Emir. J. Food Agric., 25: 549-554.

De Silva, P.H.G.J. and A. Kalubowila, 2012. Influence of feed withdrawal for three hour time period on growth performance and carcass parameters later stage of male broiler chickens. Iran. J. Applied Anim. Sci., 2: 191-197.

Petek, M., 2000. The effects of feed removal during the day on some production traits and blood parameters of broilers. Turk. J. Vet. Anim. Sci., 24: 447-452.

Bonsu, F.R.K., J.K. Kagya-Agyemang, K.N. Hope, K. Sarpong, and E. Yendoh, 2014. Preliminary study on physiological response of broilerchickens to graded levels of Tetrapluera tetraptera (Prekese) dry fruitmeal supplemented in feed or drinking water. Proceedings of the 32nd biennial conference of the Ghana Animal Science Association, August 20-22, Department of Animal Science, Faculty of Agriculture, University for Development Studies, 218-225.

Choe, H.S., J.S. Um and K.S. Ryu, 2013. A comparison of various energy and protein concentrations in diets on the performance, bone mineral density and blood characteristics of broiler chicks. Korean J. Poult. Sci., 40: 369-377.

Zhang, Z.F., T.X. Zhou and I.H. Kim, 2013. Effects of dietary olive oil on growth performance, carcass parameters, serum characteristics, and fatty acid composition of breast and drumstick meat in broilers. Asian-Australas. J. Anim. Sci., 26: 416-422.

Demir, E., S. Sarica, A. Sekeroglu, M.A. Ozcan and Y. Seker, 2004. Effects of early and late feed restriction or feed withdrawal on growth performance, ascites and blood constituents of broiler chickens. Acta Agric. Scandinavica Section A Anim. Sci., 54: 152-158.

Dastar, B., H. Mohebodini, M.S. Sharg and S. Zerehdaran, 2009. The comparison of early feed restriction and meal feeding on performance, carcass characteristics and blood constituents of broiler chickens. J. Anim. Vet. Adv., 8: 2069-2074.

Onbasilar, E.E., S. Yalcin, E. Torlak and P. Ozdemir, 2009. Effects of early feed restriction on live performance, carcass characteristics, meat and liver composition, some blood parameters, heterophil-lymphocyte ratio, antibody production and tonic immobility duration. Trop. Anim. Health Prod., 41: 1513-1519.

Jahanpour, H., A. Seidavi, A.A.A. Qotbi and R. Payan-Carreira, 2013. Effects of two levels of quantitative feed restriction for a 7- or 14- days period on broilers blood parameters. Acta Scientiae Veterinariae, Vol. 41.

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Published

2023-07-26

Issue

Vol. 22 (2023)

Section

Research Article

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Copyright (c) 2023 The Author(s)

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How to Cite

Osei-Adjei, A., Donkoh, A., Sarfo, G. K., & Hamidu , J. A. (2023). The Impact of Feeding Strategies to Reduce the Heat Stress in Broiler Production. International Journal of Poultry Science, 22, 138–148. https://doi.org/10.3923/ijps.2023.138.148