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Italian Journal of Animal Science Volume 22, 2023 - Issue 1
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Non-Ruminants Nutrition and Feeding

The effect of the chelated form of trace elements in diet on weight gain, production traits, egg specific gravity, immune system, blood parameters, liver enzymes, and progesterone hormone in Ross 308 broiler breeder chickens

Farhang Faghih-MohammadiDepartment of Animal Science, Rasht Branch, Islamic Azad University, Rasht, IranView further author information
,
Alireza SeidaviDepartment of Animal Science, Rasht Branch, Islamic Azad University, Rasht, IranCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-1903-2753View further author information
ORCID Icon &
Mehrdad BouyehDepartment of Animal Science, Rasht Branch, Islamic Azad University, Rasht, IranORCID Iconhttps://orcid.org/0000-0002-2622-3777View further author information
ORCID Icon
Pages 524-536 | Received 20 Jan 2023, Accepted 12 May 2023, Published online: 25 May 2023

References

  • Aksu DS, Aksu T, Önel SE. 2012. Does inclusion at low levels of organically complexed minerals versus inorganic forms create a weakness in performance or antioxidant defense system in broiler diets? Int J Poult Sci. 11(10):666–672.
  • Ao T, Pierce J. 2013. The replacement of inorganic mineral salts with mineral proteinates in poultry diets. World’s Poult Sci J. 69(1):5–16.
  • Bai D, Liu K, He X, Tan H, Liu Y, Li Y, Zhang Y, Zhen W, Zhang C, Ma Y. 2022. Effect of dietary chlorogenic acid on growth performance, antioxidant function, and immune response of broiler breeders under immune stress and stocking density stress. Vet Sci. 9(10):582.
  • Bennett PM, Jepson PD, Law RJ, Jones BR, Kuiken T, Baker JR, Rogan E, Kirkwood JK. 2001. Exposure to heavy metals and infectious disease mortality in harbour porpoises from England and Wales. Environ Pollut. 112(1):33–40.
  • Bi HJ, Liu Z, Sun CJ, Li GQ, Wu GQ, Shi FY, Liu AQ, Yang N. 2018. Brown eggshell fading with layer ageing: dynamic change in the content of protoporphyrin IX. Poult Sci. 97(6):1948–1953.
  • Bun SD, Guo YM, Guo FC, Ji FJ, Cao H. 2011. Influence of organic Zn supplementation on the antioxidant status and immune responses of broilers challenged with Eimeriatenlla. Poult Sci. 90(6):1220–1226.
  • Das A, Mishra SK, Swain RK, Sahoo G, Behura NC, Sethi K, Chichilich B, Mishra SR, Behera T, Dhama K, et al. 2014a. Effect of organic minerals supplementation on growth, bioavailability and immunity in layer chicks. Int J of Pharmacology. 10(5):237–247.
  • Das A, Mishra SK, Swain RK, Swain P, Dhama K, Sahoo G, Behura NC, Sethy K, Chichilich B, Behera T, et al. 2014b. Effect of organic minerals supplementation on growth, bioavailability and immunity in grower birds. International J Pharmacol. 10(7):380–388.
  • Duman A, Şekeroğlu A, Yıldırım H, Eleroğlu Ö. Camcı. 2016. Relation between egg shape index and egg quality characteristics. J. Europ. Poult. Sci. 80:1–9.
  • Faghih-Mohammadi F, Seidavi A, Bouyeh M. 2022. The effects of chelated micro-elements feeding in broiler breeder hens and their progeny: a review. Trop Anim Health Prod. 54(5):323.
  • Fakler TM, Ward TL, Kuhl HJ. 2002. Zinc amino acid complexes improve layer production and egg quality. Poult. Sci. 81(1):120.
  • Fathi M, Abou-Emera O, Al-Homidan I, Galal A, Rayan G. 2022. Effect of genotype and egg weight on hatchability properties and embryonic mortality pattern of native chicken populations. Poult Sci. 101(11):102129.
  • Favero A, Vieira SL, Angel CR, Bess F, Cemin HS, Ward TL. 2013a. Reproductive performance of Cobb 500 breeder hens fed diets supplemented with zinc, manganese, and copper from inorganic and amino acid-complexed sources. J. Poult. Rese. 22(1):80–91.
  • Favero A, Vieira SL, Angel CR, Bos-Mikich A, Lothhammer N, Taschetto D, Cruz RFA, Ward TL. 2013b. Development of bone in chick embryos from Cobb 500 breeder hens fed diets supplemented with zinc, manganese, and copper from inorganic and amino acid-complexed sources. Poult Sci. 92(2):402–411.
  • Feng J, Ma WQ, Niu HH, Wu XM, Wang Y, Feng J. 2010. Effects of zinc glycine chelate on growth, hematological, and immunological characteristics in broilers. Biol Trace Elem Res. 133(2):203–211.
  • Ghasemi HA, Hajkhodadadi I, Hafizi M, Fakharzadeh S, Abbasi M, Kalanaky S, Nazaran MH. 2022. Effect of advanced chelate compounds-based mineral supplement in laying hen diet on the performance, egg quality, yolk mineral content, fatty acid composition, and oxidative status. Food Chem. 366:130636.
  • Ghasemi HA, Hajkhodadadi I, Hafizi M, Taherpour K, Nazaran MH 2020. Effect of advanced chelate technology based trace minerals on growth performance, mineral digestibility, tibia characteristics, and antioxidant status in broiler chickens. J. Nutri and Meta. 17:94.
  • Gheisari AA, Sanei A, Samie A, Gheisari MM, Toghyani M. 2011. Effect of diets supplemented with different levels of manganese, zinc, and copper from their organic or inorganic sources on egg production and quality characteristics in laying hens. Biol Trace Elem Res. 142(3):557–571.
  • Hajilari DS, Shargh M, Ashayerizadeh O. 2019. Effects of dietary organic and inorganic zinc and copper supplements on performance, footpad dermatitis, carcass characteristics, and blood profile of broiler chickens. J. Poult. Sci. 7(1):15–23.
  • Hamilton RMG. 1982. Methods and factors that affect the measurement of egg eggshell quality. J. Poult. Sci. 61(10):2022–2039.
  • Hosseini-Asl SS, Pourfarzi F, Barzegar A, Mazani M, Farahmand N, Niasti E, Yazdanbod A, Didevar R, Akhavan H, Malekzadeh R. 2013. Decrease in gastric cancer susceptibility by MTHFR C677T polymorphism in Ardabil Province, Iran. Turk J Gastroenterol. 24(2):117–121.
  • Hudson BP, Fairchild BD, Wilson JL, Dozier WA, Buhr RJ. 2004a. Breeder age and zinc source in broiler breeder hen diets on progeny characteristics at hatching. J Appl Poult Res. 13(1):55–64.
  • Hudson BP, Dozier WA, III, Wilson JL, Sander JE, Ward TL. 2004b. Reproductive performance and immune status of caged broiler breeder hens provided diets supplemented with either inorganic or organic sources of zinc from hatching to 65 wk of age. J. Appl. Poult. Res. 13(2):349–359.
  • Idowu OMO, Ajuwon RO, Oso AO, Akinloye OA. 2011. Effect of Zinc supplementation on laying performance, serume, chemistry and Zn residue in tibia bone, liver, excreta and egg shell of laying hens. International J of Poultry Science. 10(3):225–230.
  • Jarosz Ł, Marek A, Grądzki Z, Kwiecień M, Kalinowski M. 2017. The effect of feed supplementation with zinc chelate and zinc sulphate on selected humoral and cell-mediated immune parameters and cytokine concentration in broiler chickens. Res Vet Sci. 112:59–65.
  • Khoshbin MR, Vakili R, Tahmasbi AM. 2023. Manganese-methionine chelate improves antioxidant activity, immune system and egg manganese enrichment in the aged laying hens. Vet Med Sci. 9(1):217–225.
  • Kim CH, Jeong SH, Lim SJ, Cheon SN, Kim K, Chun J, Jeon J. 2022. Effect of organic or inorganic mineral premix in the diet on laying performance of aged laying hens and eggshell quality. Animals. 12(18):2378.
  • Kim GB, Seo YM, Shin KS, Rhee AR, Han J, Paik IK. 2011. Effects of supplemental copper-methionine chelate and copper-soy proteinate on the performance, blood parameters, liver mineral content, and intestinal microflora of broiler chickens. J. Appl. Poult. Res. 20(1):21–32.
  • Kita K, Hohmura I, Okumura J. 1997. Influence of dietary zinc methionine supplementation on eggshell quality in laying hens under hot climate environment. Jpn Poult Sci. 34(1):21–26.
  • Klecker DO, L. Zeman P, Jelinek B. 2002. Effect of manganese and zinc chelates on the quality of eggs. Acta Univ Agric.etsilvic. Meandel Brun. 50:59–68.
  • Lammie D, Bain MM, Solomon SE, Wess TJ. 2006. Scanning microfocus small angle X-ray scattering study of the avian eggshell. J Bionic Eng. 3(1):11–18.
  • Leach RM, Rucker RB, Van Dyke GP. 1981. Egg shell membrane protein: a nonelastin desmosine/isodesmosinecontaning protein. Arch Biochem Biophys. 207(2):353–359.
  • Li LL, Gong YJ, Zhan HQ, Zheng YX, Zou XT. 2019. Effects of dietary Zn-methionine supplementation on the laying performance, egg quality, antioxidant capacity, and serum parameters of laying hens. Poult Sci. 98(2):923–931.
  • Liao X, Li W, Zhu Y, Zhang L, Lu L, Lin X, Luo X. 2018. Effects of environmental temperature and dietary zinc on egg production performance, egg quality and antioxidant status and expression of heat-shock proteins in tissues of broiler breeders. Br J Nutr. 120(1):3–12.
  • Liu B, Jiang J, Lin G, Yu D, Xiong YL. 2019. Upregulation of antioxidant enzymes by organic mineral co-factors to improve oxidative stability and quality attributes of muscle from laying hens. Food Res Int. 125:108575.
  • Mabe I, Rapp C, Bain MM, Nys Y. 2003. Supplementation of a corn‐soybean meal diet with manganese, copper, and zinc from organic or inorganic sources improves eggshell quality in aged laying hens. Poult Sci. 82(12):1903–1913.
  • Maciel MP, Saraiva EP, Aguiar ÉdF, Ribeiro PAP, Passos DP, Silva JB. 2010. Effect of using organic microminerals on performance and external quality of eggs of commercial laying hens at the end of laying. R Bras Zootec. 39(2):344–348.
  • Manangi MK, Vazques-Anon M, Richards JD, Carter S, Knight CD. 2015. The impact of feeding supplemental chelated trace minerals on shell quality, tibia breaking strength, and immune response in laying hens. J. Poult. Res. 24(3):316–326.
  • Meshreky SZ, Allam SM, El-Manilawi MA, Amin HF. 2015. Effect of dietary supplemental zinc source and level on growth performance, digestibility coefficients and immune response of New Zealand white rabbits. Egypt. J. Nutr. Feeds. 18(2):383–390.
  • Muszyński S, Tomaszewska E, Kwiecień M, Dobrowolski P, Tomczyk A. 2018a. Effect of dietary phytase supplementation on bone and hyaline cartilage development of broilers fed with organically complexed copper in a cu-deficient diet. Biol Trace Elem Res. 182(2):339–353.
  • Muszyński S, Tomaszewska E, Kwiecień M, Dobrowolski P, Tomczyk-Warunek A. 2018b. Subsequent somatic axis and bone tissue metabolism responses to a low-zinc diet with or without phytase inclusion in broiler chickens. PLOS One. 13(1):e0191964.
  • Nagalakshmi D, Sridhar K, Parashuramulu S. 2015. Replacement of inorganic zinc with lower levels of organic zinc (zinc nicotinate) on performance, hematological and serum biochemical constituents, antioxidants status, and immune responses in rats. Vet World. 8(9):1156–1162.
  • Niknia AD, Vakili R, Tahmasbi AM. 2023. Role of zinc-methionine chelate on bone health and eggshell quality in late-phase laying hens. All Life. 16(1):2162609.
  • Noetzold TL, Vieira SL, Horn RM, de Freitas CR, Fireman AK. 2022. Improved offspring performance of broiler breeder hens fed amino acid complexed trace minerals. J Appl Poult Res. 31(4):100284.
  • Nys Y, Gautron J, Garcia-Ruiz JM, Hincke MT. 2004. Avian eggshell mineralization: biochemical and functional characterization of matrix proteins. C. R. Palevol. 3(6–7):549–562.
  • Nys Y, Hincke MT, Arias JL, Garcia-Ruiz JM, Solomon SE. 1999. Avian eggshell mineralization. Avian Poult. Biol. Rev. 10:143–166.
  • Nys Y, Schlegel P, Durosoy S, Jondrevill C, Narcy A. 2018. Adapting trace mineral nutrition of birds for optimising the environment and poultry product quality. Wor. Poult Sci. 74(2):225–238.
  • Olukosi OA, van Kuijk S, Han Y. 2018. Copper and zinc sources and levels of zinc inclusion influence growth performance, tissue trace mineral content, and carcass yield of broiler chickens. Poult Sci. 97(11):3891–3898.
  • Oviedo-Rondon EO, Leandro NM, Ali R, Koci M, Moraes V, Brake J. 2013. Broiler breeder feeding programs and trace minerals on maternal antibody transfer and broiler humoral immune response1. J. Poult. Res. 22(3):499–510.
  • Pan C, Huang K, Zhao Y, Qin S, Chen F, Hu Q. 2007. Effect of selenium source and level in hen’s diet on tissue selenium deposition and egg selenium concentrations. J Agric Food Chem. 55(3):1027–1032.
  • Paton ND, Cantor AH, Pescatore AJ, Ford MJ, Smith CA. 2002. The effects of dietary selenium source and level on the uptake of selenium by developingchick embryos. Poult Sci. 81(10):1548–1554.
  • Pekel AY, Demirel G, Alp M, Kocabagli N, Acar N. 2012. Influence of different dietary copper sources on eggshell quality and phosphorus retention in laying hens. J. Poult. Res. 21(3):460–466.
  • Pekel AY, Alp M. 2011. Effects of different dietary copper sources on laying hen performance and egg yolk cholesterol. J. Poult. Res. 20(4):506–513.
  • Prasad AS, Beck FWJ, Snell DC, Kucuk O. 2009. Zinc in cancer prevention. Nutr Cancer. 61(6):879–887.
  • Qiu JL, Lu XT, Ma LX, Hou CC, He JN, Liu B, Yu DY, Lin G, Xu JM. 2020. Low-dose of organic trace minerals reduced fecal mineral excretion without compromising performance of laying hens. Asian-Australas J Anim Sci. 33(4):588–596.
  • Qiu JL, Zhou Q, Zhu JM, Lu XT, Liu B, Yu DY, Lin G, Ao T, Xu, JM 2020. Organic trace minerals improve eggshell quality by improving the eggshell ultrastructure of laying hens during the late laying period. Poult Sci. 99(3):1483–1490.
  • Ramos-Vidales D, Gómez-Verduzco G, Cortes-Cuevas A, Río-García JC, Fernández-Tinoco S, Chárraga-Aguilar S, Ávila-González E. 2019. Organic trace minerals on productive performance, egg quality and immune response in Bovans White laying hens. J Anim Physiol Anim Nutr. 103(5):1484–1491.
  • Rodriguez-Navarro A, Kalin O, Nys Y, Garcia-Ruiz JM. 2002. Influence of the microstructure on the shell strength of eggs laid by hens of different ages. Br Poult Sci. 43(3):395–403.
  • Safaa HM, Serrano MP, Valencia DG, Arbe X, Jiménez-Moreno E, Lázaro R, Mateos GG. 2008. Effects of the levels of methionine, linoleic acid, and added fat in the diet on productive performance and egg quality of brown laying hens. Poult Sci. 87(8):1595–1602.
  • Santos JS, Araújo ICS, Lacerda MJR, Andrade MA, Café MB, Leandro NSM, Stringhini JH. 2022. Effects of broiler breeder age on immune system development of progeny. Revista Brasileira de Zootecnia. 51:e20210127.
  • Sarlak S, Tabeidian SA, Toghyani M, Shahraki ADF, Goli M, Habibian M. 2021. Effects of replacing inorganic with organic iron on performance, egg quality, serum and egg yolk lipids, antioxidant status, and iron accumulation in eggs of laying hens. Biol Trace Elem Res. 199(5):1986–1999.
  • Seidavi A, Asadpour L, Dadashbeiki M, Payan-Carreira R. 2014. Effects of dietary fish oil and green tea powder supplementation on broiler chickens immunity. Acta Sci. Vet. 42(1):1–13.
  • Sirri F, Zampiga M, Berardinelli A, Meluzzi A. 2018. Variability and interaction of some egg physical and eggshell quality attributes during the entire laying hen cycle. Poult Sci. 97(5):1818–1823.
  • Swiatkiewicz S, Koreleski J. 2008. The effect of zinc and manganese source in the diet for laying hens on eggshell and bones quality. Vet Med. 53(10):555–563.
  • Tabatabaie MM, Aliarabi H, Saki AA, Ahmadi A, Siyar SA. 2007. Effect of different sources and levels of zinc on egg quality and laying hen performance. Pak J Biol Sci. 10(19):3476–3478.
  • Vieira SL. 2008. Chelated minerals for poultry. Rev Bras Cienc Avic. 10)(2):73–79.
  • Vieira MM, Ribeiro AML, Kessler AM, Moraes ML, Kunrath MA, Ledur VS. 2013. Different sources of dietary zinc for broilers submitted to immunological, nutritional, and environmental challenge. J. Poult. Res. 22(4):855–861.
  • Wang G, Liu LJ, Tao WJ, Xiao ZP, Pei X, Liu J, Wang MQ, Lin G, Ao TY. 2019. Effects of replacing inorganic trace minerals with organic trace minerals on the production performance, blood profiles, and antioxidant status of broiler breeders. Poult Sci. 98(7):2888–2895.
  • Yang B, Gong J, Jing J, Hao Y, Li S, Liu G, Feng Z, Zhao G. 2022. Effects of zinc methionine hydroxy analog chelate on laying performance, serum hormone levels, and expression of reproductive axis related genes in aged broiler breeders. Front Vet Sci. 9:918283.
  • Yenice E, Mızrak C, Gültekin M, Atik Z, Tunca M. 2015. Effects of organic and inorganic forms of manganese, zinc, copper, and chromium on bioavailability of these minerals and calcium in late-phase laying hens. Biol Trace Elem Res. 167(2):300–307.
  • Yildiz AO, Cufadar Y, Olgun O. 2011. Effects of dietary organic and inorganic manganese supplementation on performance, egg quality and bone mineralisation in laying hens. J. Revue de Med. Vet. 162:482–488.
  • Zamani A, Rahmani HR, Pourreza J. 2005. Supplementation of a corn-soybean meal diet with manganese and zinc improves eggshell quality in laying hens. Pakistan J Biol Sci. 8(9):1311–1317.
  • Zhang KK, Han MM, Dong YY, Miao ZQ, Zhang JZ, Song XY, Feng Y, Li HF, Zhang LH, Wei QY, et al. 2021. Low levels of organic compound trace elements improve the eggshell quality, antioxidant capacity, immune function, and mineral deposition of aged laying hens. Animal. 15(12):100401.
  • Zhang L, Wang JS, Wang Q, Li KX, Guo TY, Xiao X, Wang YX, Zhan XA. 2018. Effects of maternal zinc glycine on mortality, zinc concentration, and antioxidant status in a developing embryo and 1-day-old chick. Biol Trace Elem Res. 181(2):323–330.
  • Zhang YN, Zhang HJ, Wang J, Yue HY, Qi XL, Wu SG, Qi GH. 2017. Effect of dietary supplementation of organic or inorganic zinc on carbonic anhydrase activity in eggshell formation and quality of aged laying hens. Poult Sci. 96(7):2176–2183.
  • Zhang JC, Wang YN, Zhang C, Xiong M, Qi D. 2019. The differences of gonadal hormones and uterine transcriptome during shell calcification of hens laying hard or weak-shelled eggs. BMC Gen., 20(1):1–12.
  • Zhang L, Wang Y, Xiao X, Wang J, Wang Q, Li K, Guo T, Zhan X. 2017. Effects of zinc glycinate on productive and reproductive performance, zinc concentration and antioxidant status in broiler breeders. Biol Trace Elem Res. 178(2):320–326.

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