Do the differences in egg contamination, penetration, and resistance against microorganisms among the hen genotypes exist?

Ahmed A.M.H., Rodríguez-Navarro A.B., Vidal M.L., Gautron J., García-Ruiz J.M., Nys Y. (2005). Changes in eggshell mechanical properties, crystallographic texture and in matrix proteins induced by moult in hens. Brit. Poultry Sci., 46: 268–279.10.1080/00071660500065425Search in Google Scholar

Akter Y., Kasim A., Omar H., Sazili A.Q. (2014). Effect of storage time and temperature on the quality characteristics of chicken eggs. J. Food Agric. Environ., 12: 87–92.Search in Google Scholar

Anderle V., Lichovníková M., Przywarová A., Dračková E. (2014). Egg quality of gene reserve Czech Golden Spotted hens. Acta Fytotech. Zootech., 17: 84–86.10.15414/afz.2014.17.03.84-86Search in Google Scholar

Aygun A., Sert D. (2013 a). Effects of prestorage application of propolis and storage time on eggshell microbial activity, hatchability, and chick performance in Japanese quail (Coturnix coturnix japonica) eggs. Poultry Sci., 92: 3330–3337.10.3382/ps.2013-0329124235245Search in Google Scholar

Aygun A., Sert D. (2013 b). Effects of vacuum packing on eggshell microbial activity and egg quality in table eggs under different storage temperatures. J. Sci. Food Agric., 93: 1626–1632.10.1002/jsfa.593623124536Search in Google Scholar

Bain M.M., Dunn I.C., Wilson P.W., Joseph N., De Ketelaere B., De Baerdemaeker J., Waddington D. (2006). Probability of an egg cracking during packing can be predicted using a simple non-destructive acoustic test. Brit. Poultry Sci., 47: 462–469.10.1080/00071660600829233Search in Google Scholar

Batkowska J., Brodacki A. (2017). Selected quality traits of eggs and the productivity of newly created laying hen hybrids dedicated to an extensive rearing system. Arch. Anim., 60: 87–93.10.5194/aab-60-87-2017Search in Google Scholar

Brodacki A., Batkowska J., Drabik K., Chabroszewska P., Łuczkiewicz P. (2019). Selected quality traits of table eggs depending on storage time and temperature. Brit. Food J., 121: 2016–2026.10.1108/BFJ-10-2018-0688Search in Google Scholar

D’Alba L., Shawkey M.D. (2015). Mechanisms of antimicrobial defense in avian eggs. J. Ornithol., 156: 399–408.10.1007/s10336-015-1226-1Search in Google Scholar

De Reu K., Messens W., Heyndrickx M., Rodenburg T.B., Uyttendaele M., Herman L. (2008). Bacterial contamination of table eggs and the influence of housing systems. World. Poultry Sci. J., 64: 5–19.10.1017/S0043933907001687Search in Google Scholar

Dikmen B.Y., İpek A., Şahan Ü., Petek M., Sözcü A. (2016). Egg production and welfare of laying hens kept in different housing systems (conventional, enriched cage, and free range). Poultry Sci., 95: 1564–1572.10.3382/ps/pew082Search in Google Scholar

Elmi M. (2004). Food safety: current situation, unaddressed issues and the emerging priorities. East. Mediterr. Health J., 10: 794–800.10.26719/2004.10.6.794Search in Google Scholar

Englmaierová E., Tůmová E., Charvátová V., Skřivan M. (2014). Effects of laying hens housing system on laying performance, egg quality characteristics, and egg microbial contamination. Czech J. Anim. Sci., 59: 345–352.10.17221/7585-CJASSearch in Google Scholar

FAO (2003). Assuring food safety and quality: guidelines for strengthening national food control systems. Food and Agriculture Organization of the United Nations and World Health Organization Rome (Italy).Search in Google Scholar

FAO (2007). The state of world’s animal genetic resources for food and agriculture. Commission on Genetic Resources for Food and Agriculture Food; Food and Agriculture Organization of the United Nations Rome (Italy).Search in Google Scholar

Farewell A., Neidhardt F.C. (1998). Effect of temperature on in vivo protein synthetic capacity in Escherichia coli. J. Bacteriol., 180: 4704–4710.10.1128/JB.180.17.4704-4710.1998Search in Google Scholar

Fisher K., Phillips C. (2009). The ecology, epidemiology and virulence of Enterococcus. Microbiology, 155: 1749–1757.10.1099/mic.0.026385-0Search in Google Scholar

Hanusová E., Hrnčár C., Hanus A., Oravcova M. (2015). Effect of breed on some parameters of egg quality in laying hens. Acta Fytotech. Zootech., 18: 20–24.10.15414/afz.2015.18.01.12-24Search in Google Scholar

Hanusová E., Hrnčár C., Hanus A., Ondruška Ľ. (2017). Characterization of native Slovak chicken and goose: a review. Slovak J. Anim. Sci., 50: 144–148.Search in Google Scholar

Hernandez J.M., Beardswort P.M., Weber G. (2005). Egg quality meeting consumer expectations. Int. Poultry Prod., 13: 20–23.Search in Google Scholar

Hincke M.T., Gautron J., Panheleux M., Garcia-Ruiz J., McKee M.D., Nys Y. (2000). Identification and localization of lysozyme as a component of eggshell membranes and eggshell matrix. Matrix Biol., 19: 443–453.10.1016/S0945-053X(00)00095-0Search in Google Scholar

Hy-Line (2021). Hy-Line Brown: The World’s Most Balanced Egg Layer. Management Guide. https://www.hyline.com/varieties/brownSearch in Google Scholar

Iannotti L.L., Lutter C.K., Bunn D.A., Stewart C.P. (2014). Eggs: the uncracked potential for improving maternal and young child nutrition among the world’s poor. Nutr. Rev., 72: 355–368.10.1111/nure.12107Search in Google Scholar

Jones D.R., Anderson K.E., Davis G.S. (2001). The effects of genetic selection on production parameters of single comb White Leghorn hens. Poultry Sci., 80: 1139–1143.10.1093/ps/80.8.1139Search in Google Scholar

Jones D.R., Curtis P.A., Anderson K.E., Jones F.T. (2004). Microbial contamination in inoculated shell eggs: II. Effects of layer strain and egg storage. Poultry Sci., 83: 95–100.10.1093/ps/83.1.95Search in Google Scholar

Jones D.R., Cox N.A., Guard J., Fedorka-Cray P.J., Buhr R.J., Gast R.K., Abdo Z., Rigsby L.L., Plumblee J.R., Karcher D.M., Robison C.I., Blatchford R.A., Makagon M.M. (2015). Microbiological impact of three commercial laying hen housing systems. Poultry Sci., 94: 544–551.10.3382/ps/peu010Search in Google Scholar

Khatun H., Rashid M.A., Faruque S., Islam M.N., Ali M.Y. (2016). Study on egg quality characteristics of three commercial layer strains under different storage conditions. Int. J. Anim. Res., 1: 63–70.Search in Google Scholar

Kraus A., Zita L., Krunt O. (2019). The effect of different housing system on quality parameters of eggs in relationship to the age in brown egg-laying hens. Bulg. J. Agric. Sci., 25: 1246–1253.Search in Google Scholar

Kraus A., Zita L., Krunt O., Pokorná K. (2020). How genotype influences the egg quality in the second half of laying cycle? J. Cent. Eur. Agric., 21: 215–221.10.5513/JCEA01/21.2.2683Search in Google Scholar

Kraus A., Zita L., Krunt O., Härtlová H., Chmelíková E. (2021). Determination of selected biochemical parameters in blood serum and egg quality of Czech and Slovak native hens depending on the housing system and hen age. Poultry Sci., 100: 1142–1153.10.1016/j.psj.2020.10.039Search in Google Scholar

Krawczyk J. (2009). Quality of eggs from Polish native Greenleg Partridge chicken-hens maintained in organic vs. backyard production systems. Anim. Sci. Pap. Rep., 27: 227–235.Search in Google Scholar

Krawczyk J., Sokołowicz Z. (2015). Effect of chicken breed and storage conditions of eggs on their quality. Acta Sci. Pol. Zootech., 14: 109–118.Search in Google Scholar

Krawczyk J., Sokołowicz Z., Szymczyk B. (2011). Effect of housing system on cholesterol, vitamin and fatty acid content of yolk and physical characteristics of eggs from Polish native hens. Arch. Geflugelkd., 75: 151–157.Search in Google Scholar

Krunt O., Zita L., Kraus A., Okrouhlá M., Chodová D., Stupka R. (2021). Guinea fowl (Numida meleagris) eggs and free range housing: A convenient alternative to laying hens’ eggs in terms of food safety? Poultry Sci., 100: 101006.10.1016/j.psj.2021.01.029Search in Google Scholar

Kulshreshtha G., Rodriguez-Navarro A., Sanchez-Rodriguez E., Diep T., Hincke M.T. (2018). Cuticle and pore plug properties in the table egg. Poultry Sci., 97: 1382–1390.10.3382/ps/pex409Search in Google Scholar

Kusuda S., Iwasawa A., Doi O., Ohya Y., Yoshizaki N. (2011). Diversity of the cuticle layer of avian eggshells. J. Poultry Sci., 48: 119–124.10.2141/jpsa.010103Search in Google Scholar

Lee M.H., Cho E.J., Choi E.S., Sohn S.H. (2016). The effect of storage period and temperature on egg quality in commercial eggs. Korean J. Poultry Sci., 43: 31–38.10.5536/KJPS.2016.43.1.31Search in Google Scholar

Lewko L., Gornowicz E. (2009). Egg albumen quality as affected by bird origin. J. Cent. Eur. Agric., 10: 455–463.Search in Google Scholar

Messens W., Grijspeerdt K., Herman L. (2005). Eggshell penetration by Salmonella: a review. World. Poultry Sci. J., 61: 71–86.10.1079/WPS200443Search in Google Scholar

Moyle T., Drake K., Gole V., Chousalkar K., Hazel S. (2016). Bacterial contamination of eggs and behaviour of poultry flocks in the free range environment. Comp. Immunol. Microbiol. Infect. Dis., 49: 88–94.10.1016/j.cimid.2016.10.005Search in Google Scholar

Park Y.S., Yoo I.J., Jeon K.H., KimChang E.J., Oh H.I. (2003). Effects of various eggshell treatments on the egg quality during storage. Asian-Australas. J. Anim. Sci., 16: 1224–1229.10.5713/ajas.2003.1224Search in Google Scholar

Pohle K., Cheng H.W. (2009). Comparative effects of furnished and battery cages on egg production and physiological parameters in White Leghorn hens. Poultry Sci., 88: 2042–2051.10.3382/ps.2009-00171Search in Google Scholar

Roberts J.R. (2004). Factors affecting egg internal quality and egg shell quality in laying hens. J. Poultry Sci., 41: 161–177.10.2141/jpsa.41.161Search in Google Scholar

Rodríguez-Navarro A.B., Domínguez-Gasca N., Muñoz A., Ortega-Huertas M. (2013). Change in the chicken eggshell cuticle with hen age and freshness. Poultry Sci., 92: 3026–3035.10.3382/ps.2013-03230Search in Google Scholar

Samli H.E., Agma A., Senkoylu N. (2005). Effects of storage time and temperature on egg quality in old laying hens. J. Appl. Poultry Res., 14: 548–553.10.1093/japr/14.3.548Search in Google Scholar

Sert D., Aygun A., Demir M.K. (2011). Effects of ultrasonic treatment and storage temperature on egg quality. Poultry Sci., 90: 869–875.10.3382/ps.2010-00799Search in Google Scholar

Stepien-Pysniak D. (2010). Occurrence of Gram-negative bacteria in hens’ eggs depending on their source and storage conditions. Pol. J. Vet. Sci., 13: 507–513.Search in Google Scholar

Svobodová J., Tůmová E. (2014). Factors affecting microbial contamination of market eggs: a review. Sci. Agric. Bohem., 45: 226–237.10.1515/sab-2015-0003Search in Google Scholar

Theron H., Venter P., Lues J.F.R. (2003). Bacterial growth on chicken eggs in various storage environments. Food Res. Int., 36: 969–975.10.1016/S0963-9969(03)00117-0Search in Google Scholar

Vlčková J., Tůmová E., Ketta M., Englmaierová M., Chodová D. (2018). Effect of housing system and age of laying hens on eggshell quality, microbial contamination, and penetration of microorganisms into eggs. Czech J. Anim. Sci., 63: 51–60.10.17221/77/2017-CJASSearch in Google Scholar

Vlčková J., Tůmová E., Míková K., Englmaierová M., Okrouhlá M., Chodová D. (2019). Changes in the quality of eggs during storage depending on the housing system and the age of hens. Poultry Sci., 98: 6187–6193.10.3382/ps/pez401Search in Google Scholar

Yamak U.S., Boz M.A., Ucar A., Sarcia M., Onder H. (2016). The effect of eggshell thickness on the hatchability of guinea fowl and pheasants. Rev. Bras. Cienc. Avic., 18: 49–53.10.1590/1806-9061-2015-0214Search in Google Scholar

You S.J., Udenigwe C.C., Aluko R.E., Wu J. (2010). Multifunctional peptides from egg white lysozyme. Food Res. Int., 43: 848–855.10.1016/j.foodres.2009.12.004Search in Google Scholar

Zaheer K. (2015). An updated review on chicken eggs: production, consumption, management aspects and nutritional benefits to human health. Food Nutr. Sci., 6: 1208–1220.10.4236/fns.2015.613127Search in Google Scholar

Zita L., Tůmová E., Štolc L. (2009). Effects of genotype, age and their interaction on egg quality in brown-egg laying hens. Acta Vet. Brno, 78: 85–91.10.2754/avb200978010085Search in Google Scholar

Zita L., Jeníková M., Härtlová H. (2018). Effect of housing system on egg quality and the concentration of cholesterol in egg yolk and blood of hens native resources of the Czech Republic and Slovakia. J. Appl. Poultry Res., 3: 380–388.10.3382/japr/pfy009Search in Google Scholar