Abstract
The current trial was conducted by using the 288 Japanese quails to evaluate the effects of a zinc-deficient diet supplemented with nano and micro zinc oxide on performance, fertility, hatchability, and egg quality characteristics. In this experiment, birds were randomly allocated to 9 dietary treatments includes diets supplemented with nano or micro particles of zinc oxide (amount of ZnO supplement for each treatment) to supply 49, 74, 99, and 124 mg zinc per kilogram of diet in a factorial arrangement (2 × 4) and a control non supplemented diet (24 mg/kg) with four replicates of eight birds (six females and two males) in each pen. Birds were fed the experimental diets from 47 to 75 days of age and had free access to water and feed during the experimental period. Results showed that Zn supplementation, regardless of particle size, improved the eggshell thickness (P < 0.01). A significant (P < 0.05) interaction was observed between zinc level and ZnO particle size for Shell breaking strength. Quails fed diets supplement with ZnO showed significantly higher egg weight and eggshell surface (P < 0.05) as compared with birds fed a non-supplemented control diet. Results obtained here showed that supplementation of nano ZnO enhanced fertility considerably. Application of non-linear quadratic models showed that the maximum egg production percentage was achieved when 67 or 72 mg/kg of dietary zinc was supplied from nano and micro ZnO, respectively. This result indicated that nano ZnO could reduce the zinc requirement in laying Japanese quail.
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References
Liu E, Pimpin L, Shulkin M, Kranz S, Duggan CP, Mozaffarian D, Fawzi WW (2018) Effect of zinc supplementation on growth outcomes in children under 5 years of age. Nutrients 10:377–397
Yu Q, Liu H, Yang K, Tang X, Chen S, Ajuwon KM, Degen A, Fang R (2020) Effect of the level and source of supplementary dietary zinc on egg production, quality, and zinc content and on serum antioxidant parameters and zinc concentration in laying hens. Poult Sci 99:6233–6238
Fallah A, Mohammad-Hasani A, Colagar AH (2018) Zinc is an essential element for male fertility: a review of Zn roles in men’s health, germination, sperm quality, and fertilization. J Reprod Infertil 19:69
Bedwal R, Bahuguna A (1994) Zinc, copper and selenium in reproduction. Experientia 50:626–640
Brown L, Pentland S (2007) Health infertility organization: male infertility-improving sperm quality. Acubalance Wellness. Centre Ltd. Onwest 8th Ave. Vancouver Bc. Canada
Kucuk O, Kahraman A, Kurt I, Yildiz N, Onmaz A (2008) A combination of zinc and pyridoxine supplementation to the diet of laying hens improves performance and egg quality. Biol Trace Elem Res 126:165–175
Mabe I, Rapp C, Bain M, 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 82:1903–1913
Shukla P, Shrivastav A, Singh R, Bedi S (1993) Effect of dietary supplementation of zinc on egg production and egg quality characteristics of Japanese quail. Indian J Poult Sci 23:190–194
Stahl JL, Cook M, Sunde M (1986) Zinc supplementation: its effect on egg production, feed conversion, fertility, and hatchability. Poult Sci 65:2104–2109
Sahin N, Onderci M, Sahin K (2002) Effects of dietary chromium and zinc on egg production, egg quality, and some blood metabolites of laying hens reared under low ambient temperature. Biol Trace Elem Res 85:47–58
Falchuk K, Vallee B (1985) Zinc and chromatin structure, composition and function. In: Mills CF, Bremner I, Chesters JK (eds) Trace elements in man and animals. CAB Publishing, Slough, pp 48–55
Qin S, Lu L, Zhang X, Liao X, Zhang L, Guo Y, Luo X (2017) An optimal dietary zinc level of brown-egg laying hens fed a corn–soybean meal diet. Biol Trace Elem Res 177:376–383
Wen M, Wu B, Zhao H, Liu G, Chen X, Tian G, Cai J, Jia G (2019) Effects of dietary zinc on carcass traits, meat quality, antioxidant status, and tissue zinc accumulation of Pekin ducks. Biol Trace Elem Res 190:187–196
Edwards HM Jr (1959) The availability to chicks of zinc in various compounds and ores. J Nutr 69:306–308
Scott NR (2005) Nanotechnology and animal health. Rev sci tech 24:425–432
Albrecht MA, Evans CW, Raston CL (2006) Green chemistry and the health implications of nanoparticles. Green Chem 8:417–432
Tarhyel R, Tanimomo B, Hena S (2012) Effect of sex, colour and weight group on carcass characteristics of Japanese quail. Sci J Anim Sci 1:22–27
Amer MF (1972) Egg quality of Rhode Island Red, Fayoumi and Dandarawi. Poult Sci 51:232–238
Haugh H (1937) The Haugh unit for measuring egg quality. The U.S. Egg Poult Mag 43:552–555
Paganelli CV, Olszowka A, Ar A (1974) The avian egg: surface area, volume, and density. Condor 76:319–325
Abbasi M, Zaghari M, Ganjkhanlo M, Khalaji S (2015) Is dietary iron requirement of broiler breeder hens at the late stage of production cycle influenced by phytase supplementation? J Appl Anim Res 43:166–176
Kang J-S, Jeong Y-K, Shin J-H, Suh S-K, Kim J-H, Lee E-M, Kim S-H, Park S-N (2007) Comparing in vitro and in vivo genomic profiles specific to liver toxicity induced by thioacetamide. Biomol Ther 15:252–260
AOAC (2000) Official Methods of Analysis Association of Official Analytical Chemists Arlington
Shelton J, Southern L (2006) Effects of phytase addition with or without a trace mineral premix on growth performance, bone response variables, and tissue mineral concentrations in commercial broilers. J Appl Poult Res 15:94–102
Pesti GM, Vedenov D, Cason JA, Billard L (2009) A comparison of methods to estimate nutritional requirements from experimental data. Br Poult Sci 50:16–32
Park S, Birkhold S, Kubena L, Nisbet D, Ricke S (2004) Review on the role of dietary zinc in poultry nutrition, immunity, and reproduction. Biol Trace Elem Res 101:147–163
Salim H, Jo C, Lee B (2008) Zinc in broiler feeding and nutrition. Avian Biol Res 1:5–18
Salgueiro MJ, Krebs N, Zubillaga MB, Weill R, Postaire E, Lysionek AE, Caro RA, De Paoli T, Hager A, Boccio J (2001) Zinc and diabetes mellitus. Biol Trace Elem Res 81:215–228
Cupo MA, Donaldson W (1987) Chromium and vanadium effects on glucose metabolism and lipid synthesis in the chick. Poult Sci 66:120–126
Torki M, Akbari M, Kaviani K (2015) Single and combined effects of zinc and cinnamon essential oil in diet on productive performance, egg quality traits, and blood parameters of laying hens reared under cold stress condition. Int J Biometeorol 59:1169–1177
Korenekova B, Skalicka M, Nad P, Šály J, Korenek M (2007) Effects of cadmium and zinc on the quality of quail’s eggs. Biol Trace Elem Res 116:103–109
Cufadar Y, Göçmen R, Kanbur G, Yıldırım B (2020) Effects of dietary different levels of nano, organic and inorganic zinc sources on performance, eggshell quality, bone mechanical parameters and mineral contents of the tibia, liver, serum and excreta in laying hens. Biol Trace Elem Res 193:241–251
Chan S, Gerson B, Subramaniam S (1998) The role of copper, molybdenum, selenium, and zinc in nutrition and health. Clin Lab Med 18:673–685
Kidd M, Anthony N, Newberry L, Lee S (1993) Effect of supplemental zinc in either a corn-soybean or a milo and corn-soybean meal diet on the performance of young broiler breeders and their progeny. Poult Sci 72:1492–1499
Kaya Ş, Umucalilar H, Halİloğlu S, İpek H (2001) Effect of dietary vitamin A and zinc on egg yield and some blood parameters of laying hens. Turk J Vet Anim Sci 25:763–769
Kim W, Patterson P (2005) Effects of dietary zinc supplementation on hen performance, ammonia volatilization, and nitrogen retention in manure. J Environ Sci Heal B 40:675–686
Aghaei A, Khosravinia H, Mamuoei M, Azarfar A, Shahriari A (2017) Effects of dietary supplementation of zinc and α-tocopheryl acetate on performance and zinc concentrations in egg and tissues of Japanese quails. Poult Sci J 5:57–64
Chen W, Wang S, Zhang H, Ruan D, Xia W, Cui Y, Zheng C, Lin Y (2017) Optimization of dietary zinc for egg production and antioxidant capacity in Chinese egg-laying ducks fed a diet based on corn-wheat bran and soybean meal. Poult Sci 96:2336–2343
Cai S, Wu C, Gong L, Song T, Wu H, Zhang L (2012) Effects of nano-selenium on performance, meat quality, immune function, oxidation resistance, and tissue selenium content in broilers. Poult Sci 91:2532–2539
Asheer M, Manwar S, Gole M, Sirsat S, Wade M, Khose K, Sajid Ali S (2018) Effect of dietary nano zinc oxide supplementation on performance and zinc bioavailability in broilers. Indian J Poult Sci 53:70–75
Vijayakumar M, Balakrishnan V (2014) Nanoparticles supplementation on growth performance of broiler chicken. Indian J Sci Technol 7:1149–1154
Al-Beitawi NA, Momani Shaker M, El-Shuraydeh KN, Bláha J (2017) Effect of nanoclay minerals on growth performance, internal organs and blood biochemistry of broiler chickens compared to vaccines and antibiotics. J Appl Anim Res 45:543–549
Abaspour Aporvari M, Mamoei M, Tabatabaei Vakili S, Zareei M, Dadashpour Davachi N (2018) The effect of oral administration of zinc oxide nanoparticles on quantitative and qualitative properties of arabic ram sperm and some antioxidant parameters of seminal plasma in the non-breeding season. Arch Razi Inst 73:121–129
Khoobbakht Z, Mohammadi M, Mehr MR-A, Mohammadghasemi F, Sohani MM (2018) Comparative effects of zinc oxide, zinc oxide nanoparticle and zinc-methionine on hatchability and reproductive variables in male Japanese quail. Anim Reprod Sci 192:84–90
Jenner A, Ren M, Rajendran R, Ning P, Huat BTK, Watt F, Halliwell B (2007) Zinc supplementation inhibits lipid peroxidation and the development of atherosclerosis in rabbits fed a high cholesterol diet. Free Radic Biol Med 42:559–566
Tabatabaie M, Aliarabi H, Saki A, Ahmadi A, Siyar SH (2007) Effect of different sources and levels of zinc on egg quality and laying hen performance. Pak J Biol Sci 10:3476–3478
Cho Y-E, Lomeda R-AR, Ryu S-H, Sohn H-Y, Shin H-I, Beattie JH, Kwun I-S (2007) Zinc deficiency negatively affects alkaline phosphatase and the concentration of Ca, Mg and P in rats. Nutr Res Pract 1:113–119
Zhang Y, Zhang H, Wang J, Yue H, Qi X, Wu S, Qi G (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 96:2176–2183
Wistedt A, Ridderstråle Y, Wall H, Holm L (2014) Exogenous estradiol improves shell strength in laying hens at the end of the laying period. Acta Vet Scand 56:1–11
Moreng R, Balnave D, Zhang D (1992) Dietary zinc methionine effect on eggshell quality of hens drinking saline water. Poult Sci 71:1163–1167
Zamani A, Rahmani H, Pourreza J (2005) Supplementation of a corn-soybean meal diet with manganese and zinc improves eggshell quality in laying hens. Pak J Biol Sci 8:1311–1317
Ludeen T (2001) Mineral proteinates may have positive effect on shell quality. Feedstuffs 73:10–15
Neto MT, Pacheco B, Albuquerque R, Schammass E, Rodriguez-Lecompte J (2011) Dietary effects of chelated zinc supplementation and lysine levels in ISA Brown laying hens on early and late performance, and egg quality. Poult Sci 90:2837–2844
Stevenson MH (1985) Effect of added cassava root meal, ZnO and their interaction on the production and quality of eggs from laying hens. J Sci Food Agric 36:909–914
Yang X, Zhong L, An X, Zhang N, Zhang L, Han J, Yao J, Cote C, Sun Y (2012) Effects of diets supplemented with zinc and manganese on performance and related parameters in laying hens. Anim Sci J 83:474–481
Cruz V, Fernandez I (2011) Effect of organic selenium and zinc on the performance and egg quality of Japanese quails. Braz J Poult Sci 13:91–95
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MA and NA wrote the manuscript; they took an active part in experimental research. BD checked the manuscript and made statistical adjustments. MSS and SRH determined the elements. The author(s) read and approved the final manuscript.
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Abbasi, M., Dastar, B., Afzali, N. et al. The Effects of Nano and Micro Particle Size of Zinc Oxide on Performance, Fertility, Hatchability, and Egg Quality Characteristics in Laying Japanese Quail. Biol Trace Elem Res 200, 2338–2348 (2022). https://doi.org/10.1007/s12011-021-02848-2
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DOI: https://doi.org/10.1007/s12011-021-02848-2