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8. Effects of oxygen concentration during incubation and broiler breeder age on embryonic heat production, chicken development, and 7-day performance

Author

R. Meijerhof, A. Nangsuay, M.J.W. Heetkamp, H. van den Brand, Bas Kemp, I. van den Anker, and R. Molenaar

Subjects
food.ingredient, animal structures, animal diseases, Biology, Feed conversion ratio, SF1-1100, Egg Shell, Nutrient, food, Animal science, Yolk, medicine, Animals, Eggshell, Adaptatiefysiologie, Incubation, Ovum, Thermogenesis, Posthatch growth, Animal culture, Oxygen, WIAS, Adaptation Physiology, Nutrient availability, Animal Science and Zoology, Limiting oxygen concentration, Flock, medicine.symptom, Weight gain, Chickens
Abstract

Older breeder flocks produce eggs with a relatively larger yolk and thereby a higher nutrient availability than young breeder flocks. To optimise nutrient utilisation and embryonic development throughout incubation and posthatch period, embryos originating from older breeder flocks may require a higher oxygen availability. The current study investigated effects of broiler breeder flock age and incubational oxygen concentration on embryonic metabolism and chicken development until 7-day posthatch. Similar sized eggs of a young (28–32 week) or old (55–59 week) Cobb 500 breeder flock were incubated at one of three oxygen concentrations (17%, 21% or 25%) from day 7 of incubation until 6 h after emergence from the eggshell. Posthatch, chickens were reared until 7 days of age. Egg composition at the start of incubation, heat production during incubation, and embryo or chicken development at embryonic day (ED)14 and ED18 of incubation, 6 h after hatch and day 7 posthatch were evaluated. An interaction was found between breeder age and oxygen concentration for yolk-free body mass (YFBM) at ED18. A higher oxygen concentration increased YFBM in the old breeder flock, whereas no difference was found between 21 and 25% oxygen in the young breeder flock. Yolk size was larger in the old compared to the young flock from ED0 until 6 h after hatch. Breeder flock age did not affect YFBM at ED14 and 6 h after hatch nor daily embryonic heat production, but there were some effects on relative organ weights. Chickens of the old compared to the young breeder flock showed a higher weight gain at day 7, but at a similar feed conversion ratio (FCR). A higher oxygen concentration during incubation stimulated embryonic development, especially between 17% and 21% of oxygen, in both flock ages. Although this growth advantage disappeared at 7 days posthatch, a low oxygen concentration during incubation resulted in a higher FCR at 7 days posthatch. Results indicated that breeder flock age seemed to influence body development, with an advantage for the older breeder flock during the posthatch period. Oxygen concentrations during incubation affected body development during incubation and FCR in the first 7 days posthatch. Although an interaction was found between breeder flock age and oxygen concentration at ED18 of incubation, there was no strong evidence that nutrient availability at the start of incubation (represented by breeder flock ages) affected embryo and chicken development at a higher oxygen concentration.

Published
2021

9. Proceedings of the 2023 Combined Workshop of the European Federation of the World's Poultry Science Association (WPSA) Working Groups 6 (Incubation and Fertility) and 12 (Physiology), Wrocław, Poland, September 18-20, 2023.

Author

Łukaszewicz, E., Nangsuay, A., and Tzschentke, B.

Subjects
*EUROPEAN integration, *FERTILITY, *SCIENCE associations, *PHYSIOLOGY, *POULTRY, *REPRODUCTION
Abstract

The document is a summary of the proceedings of the 2023 Combined Workshop of the European Federation of the World's Poultry Science Association (WPSA) Working Groups 6 (Incubation and Fertility) and 12 (Physiology) held in Wrocław, Poland. The workshop aimed to bring together participants from research, practice, and administration to discuss current news and developments in avian and poultry incubation, reproduction, and physiology. The scientific program included invited lectures, short presentations, and a round table discussion on various topics related to fertility, reproduction, embryo development, and incubation techniques. The workshop also provided a platform for students and young scientists to present their research, and the Nick French Award was presented to the candidate with the best scientific project and presentation. The proceedings include abstracts of the keynote lectures and short presentations. [Extracted from the article]

Published
2024
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10. Proceedings of the Combined Meeting of the Incubation and Fertility Research Group (IFRG/WPSA Working Group 6) and the Perinatal Development and Fundamental Physiology Group (PDP/WPSA Working Group 12), Hof van Wageningen, the Netherlands, 30 August – 1 September, 2017

Author

null Á. Drobnyák, null É. Váradi, null A. Brionne, null A. Collin, null A. Nangsuay, null A. Plagemann, null A. Travel, null A.V. Carvalho, null A.K. Ferreira, null S. Druyan, null B. Engel, null B. Kemp, null B. Lázár, null B. Piégu, null B. Tzschentke, null C. Berri, null C. Hennequet-Antier, null C. M. Maatjens, null C. Noirot, null C. Praud, null C. Ramé, null C. Rame, null C. Rat, null C.W. van der Pol, null D. Hampel, null E. Cailleau-Audouin, null E. Gócza, null E. Godet, null E. Maňáková, null E. Patakiné Várkonyi, null E. Salomon, null E. Seroussi, null F. Mercerand, null F. Pitel, null H. Nasri, null H. van den Brand, null H.J. Wijnen, null I. A. M. van Roovert-Reijrink, null I. Halle, null I. Kubasov, null I. van den Anker, null I.A.M. van Roovert-Reijrink, null J. Barna, null J. Delaveau, null J. Dupont, null J. Freislebenová, null K. Liptói, null K. Schellong, null K.G. Kovácsné, null K.S. Yakimova, null L. Andersson, null L. Hubičková, null L. Ma, null L.A. Guilloteau, null M. Boerjan, null M. Foltyn, null M. Friedman Einat, null M. Lason, null M. Lichovnikova, null M. Marchand, null M. Mariette, null M. Morisson, null M. Nechaeva, null M. Ooms, null M. Salem, null M. Tesarova, null M. Vohníková, null M.H. Priester, null M.J. Wineland, null M.J.W. Heetkamp, null N. Couroussé, null N. Mellouk, null O. Genin, null P. Chartrin, null P. Froment, null R. Meijerhof, null R. Molenaar, null R.B. Wysocky, null R.C. Rancourt, null S-A. David, null S. Benjamini, null S. Bogatyrev, null S. Bornelöv, null S. Crochet, null S. Leroux, null S. Métayer-Coustard, null S. Miyara, null S. Tatge, null S. Tesseraud, null S. Yosefi, null S.W.P. Cloete, null T. Alekseeva, null T. Bordeau, null T. Loyau, null T. Masmoudi, null T. Najjar, null T. Torma, null V. Coustham, null W. Kloas, null Y. Bigot, null Y. Cinnamon, null Z. Brand, and null Z. Zemanová

Subjects
medicine.medical_specialty, Endocrinology, Food Animals, Internal medicine, Embryogenesis, medicine, Animal Science and Zoology, Biology, Hormone, Term (time)
Published
2017
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11. Are all eggs equal? : embryonic development and nutrient metabolism in chicken eggs of different origins

Author

Nangsuay, A., Wageningen University, Bas Kemp, Henry van den Brand, and R. Meijerhof

Subjects
nutrition physiology, embryonale ontwikkeling, characteristics, vleeskuikens, hens, karakteristieken, strains, stammen (biologisch), nutrients, pluimvee, eggs, Adaptatiefysiologie, hatcheries, broilers, poultry, metabolisme, food and beverages, eieren, voedingsstoffen, voedingsfysiologie, broedinstallaties, embryonic development, embryonic structures, WIAS, Adaptation Physiology, metabolism, hennen
Abstract

Hatching eggs, supplied to hatcheries are originating from different origins varying in breed, strain, and breeder age. These hatching eggs can be different in size, composition and eggshell properties, which might influence nutrient and O2 availability and consequently could affect embryonic development and nutrient metabolism. The aim of this thesis was therefore 1) to investigate effects of egg origin on nutrient and O2 availability, 2) to investigate effects of egg origins on nutrient metabolism and embryonic development and 3) to investigate consequences of different egg origins on the incubation process and hatching characteristics. In five studies, effects of different egg origins on nutrient and O2 availability, nutrient metabolism, embryo development and hatching characteristics were investigated. The first and second study focused on breeder age and egg size. The third study on breed; broilers and layers. The fourth study on broiler strain and the fifth study on breeder age, strain and eggshell temperature (EST). The overall findings in this thesis suggest that hatching eggs from different origins are not equal in availability of nutrients and O2. Nutrient availability is altered through variation in yolk size, especially by the effects of breeder age and breed. O2 availability is altered by differences in eggshell properties, which is influenced by especially breed and broiler strain. The availability of both nutrients and O2 plays a role on nutrient metabolism measured as embryonic heat production (HP) and consequently on embryonic development. Between incubation day (E) E7 and E14, both nutrient and O2 availability might affect nutrient metabolism as shown in the results of the broiler and layer comparison. Between E14 and hatching, the availability of O2 becomes the most determinant factor for nutrient metabolism and consequently for embryonic development. An increase in EST from 37.8 to 38.9°C from E7 onward resulted in an acceleration of nutrient metabolism and embryonic development until E16, but thereafter a high EST resulted in reduced yolk free body mass development. Embryos with an accelerated metabolic speed at an early stage of incubation, caused by an increased EST, might reach limited O2 availability at a higher magnitude than the embryos at a normal EST. As a result, nutrient metabolism is restricted and embryonic development is depressed. It can be concluded that not only the HP, but also the availability of O2 is crucial to be taken into account for developing incubator temperature. The principle is to obtain an optimal EST, which could maintain the balance between O2 requirement (driven by nutrient metabolism) and O2 availability for a continuing optimal nutrient metabolism to generate sufficient energy for embryonic development throughout incubation.

Published
2016

12. Embryonic development and heat production

Author

Nangsuay, A., Meijerhof, R., van den Anker-Hensen, I., Heetkamp, M.J.W., Kemp, B., and van den Brand, H.

Subjects
WIAS, Adaptation Physiology, Adaptatiefysiologie
Published
2016

13. Differences in egg nutrient availability, development, and nutrient metabolism of broiler and layer embryos

Author

R. Meijerhof, M.J.W. Heetkamp, Bas Kemp, H. van den Brand, A. Nangsuay, I. van den Anker, and R. Molenaar

Subjects
Male, animal structures, food.ingredient, growth, Chick Embryo, Biology, protein-turnover, Egg Shell, Animal science, Nutrient, food, Yolk, Botany, Animals, Adaptatiefysiologie, Eggshell, Incubation, Strain (chemistry), heat-production, Embryogenesis, Temperature, Broiler, eggshell temperature, Thermogenesis, General Medicine, incubation, oxygen concentration, chicken embryos, glycogen, embryonic structures, WIAS, Adaptation Physiology, Female, Animal Science and Zoology, Composition (visual arts), Energy Metabolism, Chickens, lipid-metabolism, energy
Abstract

Selection for production traits of broilers and layers leads to physiological differences, which may already be present during incubation. This study aimed to investigate the influence of strain (broiler vs layer) on egg nutrient availability, embryonic development and nutrient metabolism. A total of 480 eggs with an egg weight range of 62.0 to 64.0 g from Lohmann Brown Lite and Ross 308 breeder flocks of 41 or 42 weeks of age were selected in two batches of 120 eggs per batch per strain. For each batch, 30 eggs per strain were used to determine egg composition, including nutrient and energy content, and 90 eggs per strain were separately incubated in one of two climate respiration chambers at an eggshell temperature of 37.8°C. The results showed that broiler eggs had a higher ratio of yolk: albumen with 2.41 g more yolk and 1.48 g less albumen than layers. The yolk energy content of broiler eggs was 46.32 kJ higher than that of layer eggs, whereas total energy content of broiler eggs was 47.85 kJ higher compared to layer eggs. Yolk-free body mass at incubation day 16 and chick weight and length at hatch were higher in broilers compared to layers. Respiration quotient of broiler embryos was higher than layer embryos during incubation day 8 to incubation day 10. A 0.24 g lower residual yolk at the hatch of broiler embryos than for the layer embryos indicated that broiler embryos used more yolk and had a higher energy utilization and energy deposition in yolk-free body mass. Heat production of broiler embryos was higher than that of layer embryos from incubation day 12 to incubation day 18, but efficiency of converting egg energy used by embryos to form yolk-free body mass was similar. In conclusion, broiler and layer embryos have different embryonic development patterns, which affect energy utilization and embryonic heat production. However, the embryos are equal in efficiency of converting the energy used to yolk-free body mass.

Published
2015

14. Are all eggs equal? : embryonic development and nutrient metabolism in chicken eggs of different origins

Author

Kemp, Bas, van den Brand, Henry, Meijerhof, R., Nangsuay, A., Kemp, Bas, van den Brand, Henry, Meijerhof, R., and Nangsuay, A.

Abstract

Hatching eggs, supplied to hatcheries are originating from different origins varying in breed, strain, and breeder age. These hatching eggs can be different in size, composition and eggshell properties, which might influence nutrient and O2 availability and consequently could affect embryonic development and nutrient metabolism. The aim of this thesis was therefore 1) to investigate effects of egg origin on nutrient and O2 availability, 2) to investigate effects of egg origins on nutrient metabolism and embryonic development and 3) to investigate consequences of different egg origins on the incubation process and hatching characteristics. In five studies, effects of different egg origins on nutrient and O2 availability, nutrient metabolism, embryo development and hatching characteristics were investigated. The first and second study focused on breeder age and egg size. The third study on breed; broilers and layers. The fourth study on broiler strain and the fifth study on breeder age, strain and eggshell temperature (EST). The overall findings in this thesis suggest that hatching eggs from different origins are not equal in availability of nutrients and O2. Nutrient availability is altered through variation in yolk size, especially by the effects of breeder age and breed. O2 availability is altered by differences in eggshell properties, which is influenced by especially breed and broiler strain. The availability of both nutrients and O2 plays a role on nutrient metabolism measured as embryonic heat production (HP) and consequently on embryonic development. Between incubation day (E) E7 and E14, both nutrient and O2 availability might affect nutrient metabolism as shown in the results of the broiler and layer comparison. Between E14 and hatching, the availability of O2 becomes the most determinant factor for nutrient metabolism and consequently for embryonic development. An increase in EST from 37.8 to 38.9°C from E7 onward resulted in an acceleration of nutrient met

Published
2016

15. Energy utilization and heat production of embryos from eggs originating from young and old broiler breeder flocks

Author

H. van den Brand, R. Meijerhof, A. Nangsuay, Yuwares Ruangpanit, and Bas Kemp

Subjects
food.ingredient, animal diseases, growth, hens, Chick Embryo, Biology, Broiler breeder, size, components, food, Animal science, incubation-temperature, Yolk, Animals, chick-embryo, Adaptatiefysiologie, Incubation, Ovum, Hatching, Ecology, Broiler, Age Factors, Embryo, Thermogenesis, weight, General Medicine, Weight range, age, embryonic structures, WIAS, Adaptation Physiology, Animal Science and Zoology, Flock, Energy Metabolism, hatchability, Chickens, lipid-metabolism
Abstract

Two experiments were conducted to study the interaction between breeder age and egg size on the energy utilization (experiment 1) and heat production (experiment 2) of broiler embryos. In experiment 1, a total of 4,800 Ross-308 hatching eggs from 2 breeder ages (29 and 53 wk of age, or young and old) and, within each age, 2 egg sizes (57 to 61 g and 66 to 70 g, or small and large) were used. In experiment 2, a total of 240 Ross-308 hatching eggs from 2 breeder flocks at 29 (young) and 53 (old) wk of age, and which were selected from the same egg weight range (58 to 61 g), were tested in 2 replicate chambers. In experiment 1, it was shown that the amount of yolk relative to albumen was higher in the old flock eggs, and this effect was more pronounced in the large eggs. The old flock eggs, especially the larger egg size, contained more energy as a result of a greater yolk size. Energy utilization of the embryos was positively related to yolk size and the amount of energy transferred to yolk-free body (YFB) was largely determined by the available egg energy. The efficiency of converting egg energy into chick body energy (EYFB) was equal for both egg sizes and both breeder age groups. Chick YFB weight of young and old flock eggs was equal. However, dry YFB weight of chicks from old flock eggs was higher than in chicks from young flock eggs, which was associated with more protein and fat content and thus more energy accumulated into YFB. As a consequence, embryos derived from old flock eggs produced more heat from d 16 of incubation onward than those of the young flock eggs. In conclusion, the higher energy deposition into chick YFB of old flock eggs, leading to higher embryonic heat production, is the result of a higher amount of available energy in the egg and is not due to changes in EYFB.

Published
2013

17. Effects of breeder age and oxygen concentration during incubation on embryonic heat production and development, and post-hatch chick performance.

Author

Molenaar, R., Nangsuay, A., Meijerhof, R., van den Anker, I., Heetkamp, M. J. W., Kemp, B., and van den Brand, H.

Subjects
HEAT production (Biology), EGG incubation, OXYGEN consumption
Abstract

Nutrients in the egg and oxygen diffused through the eggshell and membranes are two important factors affecting the metabolism and growth of avian embryos (WILSON, 1997; WANGENSTEEN and RAHN, 1970). The composition of the egg is influenced by breeder age (Marion et al., 1960) and similar sized eggs of an old compared to young breeder flock showed a higher yolk size and consequently higher energy content (NANGSUAY et al., 2013). To optimise nutrient use and development during the incubation and post-hatch period, embryos originating from different breeder ages that differ in their initial nutrient availability might therefore require different oxygen concentrations during incubation. To test this hypothesis, the current study investigated effects of breeder age and oxygen concentration during incubation on embryonic metabolism and development, and post-hatch chick performance. Similar sized eggs of a young (29 weeks) or old (53 weeks) Cobb 500 breeder flock were incubated at 3 oxygen concentrations (17%, 21% or 25%) from day 7 of incubation until 6 hrs after emergence from the eggshell. Egg composition at set, embryonic weight and heat production during incubation and post-hatch performance until 7 days of age was evaluated. Results showed that eggs of the old compared to the young flock were 1.2 g heavier and had 3.9 g more yolk (P < 0.01). No interactions between breeder age and oxygen concentration were found for the characteristics described below. Embryonic heat production was significantly higher from ED14 until ED18 with a higher oxygen concentration (P < 0.05). Yolk-free body mass at 6 hours after hatch was only affected by oxygen concentration, where the 21 and 25% treatment showed a higher weight than the 17% treatment (P < 0.01). This difference disappeared at 7 days of age (P > 0.10). Body weight and relative intestine weight at 7 days of age was higher in chickens of the old compared to the young breeder flock (P < 0.05). Other relative organ weights were not affected by the treatments (P > 0.05). FCR was affected by the oxygen concentration during incubation; the 17% treatment had the highest FCR and the 21% treatment had the lowest FCR, whereas the 25% treatment was intermediate (P < 0.05). Although the higher yolk weight of the eggs of the old compared to the young flock probably increased the energy content and nutrient availability for the embryo, this did not result in a higher metabolic rate or development when oxygen concentration was increased during incubation. This suggests that other factors such as the development and functionality of the yolk sac membrane and/or CAM may limit embryonic metabolism and development. The higher post-hatch growth of chickens of the old compared to the young breeder flock might be related to differences in physiology or development of supply organs, such as the intestines. Embryonic development was positively influenced by a higher oxygen concentration during incubation, but this effect disappeared in the post-hatch period. A higher O2 concentration during incubation did improve the nutrient efficiency for post-hatch growth until day 7 of age, expressed by a lower FCR. [ABSTRACT FROM AUTHOR]

Published
2017
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