Advanced search
Publication Cover
British Poultry Science Volume 9, 1968 - Issue 2
Submit an article Journal homepage
55
Views
49
CrossRef citations to date
0
Altmetric
Original Articles

The air space and embryonic respiration

2. The times of pipping and hatching as influenced by an artificially changed permeability of the shell over the air space

A. H. J. Visschedijk Laboratory for Veterinary Physiology, University of Utrecht, Holland
Pages 185-196 | Received 13 Jul 1967, Published online: 08 Nov 2007

Citations (49)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (5)

M. Meir & A. Ar. (1996) Artificial increase of eggshell conductance improves hatchability of early laid goose eggs. British Poultry Science 37:5, pages 937-951.
Read now
A. H. J. Visschedijk. (1983) The importance of convection in the determination of the water vapour conductance of avian egg shells. British Poultry Science 24:1, pages 47-56.
Read now
A. H. J. Visschedijk & H. Rahn. (1981) Incubation of chicken eggs at altitude theoretical consideration of optimal gas composition. British Poultry Science 22:5, pages 451-460.
Read now
Judith Green & Margaret Vince. (1970) Investigation of the lung flotation technique for determining pulmonary respiration in the Japanese quail. British Poultry Science 11:3, pages 403-406.
Read now
A. H. J. Visschedijk. (1968) The air space and embryonic respiration. British Poultry Science 9:2, pages 197-210.
Read now

Articles from other publishers (44)

Clancy A. Hall, Dominique A. Potvin & Gabriel C. Conroy. (2022) A new candling procedure for thick and opaque eggs and its application to avian conservation management. Zoo Biology 42:2, pages 296-307.
Crossref
Brandon A. Güell, Julie Jung, Adeline Almanzar, Juliana Cuccaro-Díaz & Karen M. Warkentin. (2022) Ontogeny of risk assessment and escape-hatching performance by red-eyed treefrog embryos in two threat contexts. Journal of Experimental Biology 225:20.
Crossref
Zhaoxiang He, Xia Chen, Xuefeng Shi, Xianyu Li, Chengfeng Li, Junying Li, Guiyun Xu, Ning Yang & Jiangxia Zheng. (2020) Acetic acid, vinegar, and citric acid as washing materials for cuticle removal to improve hatching performance of quail eggs. Poultry Science 99:8, pages 3865-3876.
Crossref
Brandon A. Güell & Karen M. Warkentin. (2018) When and where to hatch? Red-eyed treefrog embryos use light cues in two contexts. PeerJ 6, pages e6018.
Crossref
Ryoji Ide, Satoko Tomita Ide & Jacopo P. Mortola. (2016) The hypometabolic response to repeated or prolonged hypoxic episodes in the chicken embryo. Respiratory Physiology & Neurobiology 230, pages 29-35.
Crossref
A. Nangsuay, R. Meijerhof, I. van den Anker, M.J.W. Heetkamp, V. De Souza Morita, B. Kemp & H. van den Brand. (2016) Effects of breeder age, broiler strain, and eggshell temperature on development and physiological status of embryos and hatchlings. Poultry Science 95:7, pages 1666-1679.
Crossref
N. Pezaro, J.S. Doody, B. Green & M.B. Thompson. (2013) Hatching and residual yolk internalization in lizards: evolution, function and fate of the amnion. Evolution & Development 15:2, pages 87-95.
Crossref
S. Druyan, E. Levi, D. Shinder & T. Stern. (2012) Reduced O2 concentration during CAM development—Its effect on physiological parameters of broiler embryos. Poultry Science 91:4, pages 987-997.
Crossref
Jacopo P. Mortola. (2011) Metabolic and ventilatory sensitivity to hypoxia in avian embryos. Respiratory Physiology & Neurobiology 178:1, pages 174-180.
Crossref
Vern L. Christensen. 2011. Encyclopedia of Animal Science, Second Edition. Encyclopedia of Animal Science, Second Edition 582 584 .
Jacopo P. Mortola. (2009) Gas exchange in avian embryos and hatchlings. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 153:4, pages 359-377.
Crossref
Amos Ar & D. Charles Deeming. (2009) Roles of Water and Gas Exchange in Determining Hatchability Success. Avian Biology Research 2:1-2, pages 61-66.
Crossref
S. Druyan, J.E. de Oliveira & C.M. Ashwell. (2008) Focused Microarrays as a Method to Evaluate Subtle Changes in Gene Expression. Poultry Science 87:11, pages 2418-2429.
Crossref
Kirsten Szdzuy & Jacopo P. Mortola. (2008) Ventilatory chemosensitivity and thermogenesis of the chicken hatchling after embryonic hypercapnia. Respiratory Physiology & Neurobiology 162:1, pages 55-62.
Crossref
L. De Smit, V. Bruggeman, M. Debonne, J.K. Tona, B. Kamers, N. Everaert, A. Witters, O. Onagbesan, L. Arckens, J. De Baerdemaeker & E. Decuypere. (2008) The Effect of Nonventilation During Early Incubation on the Embryonic Development of Chicks of Two Commercial Broiler Strains Differing in Ascites Susceptibility. Poultry Science 87:3, pages 551-560.
Crossref
Michael B. Thompson. (2007) Comparison of the respiratory transition at birth or hatching in viviparous and oviparous amniote vertebrates. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 148:4, pages 755-760.
Crossref
S. Druyan, A. Cahaner & C.M. Ashwell. (2007) The Expression Patterns of Hypoxia-Inducing Factor Subunit α-1, Heme Oxygenase, Hypoxia Upregulated Protein 1, and Cardiac Troponin T During Development of the Chicken Heart. Poultry Science 86:11, pages 2384-2389.
Crossref
Lieve De Smit, Veerle Bruggeman, Jacob K. Tona, Marianne Debonne, Okanlawon Onagbesan, Lut Arckens, Josse De Baerdemaeker & Eddy Decuypere. (2006) Embryonic developmental plasticity of the chick: Increased CO2 during early stages of incubation changes the developmental trajectories during prenatal and postnatal growth. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 145:2, pages 166-175.
Crossref
Melanie Massaro & Lloyd S. Davis. (2004) The Influence of Laying Date and Maternal Age on Eggshell Thickness and Pore Density in Yellow-Eyed Penguins. The Condor 106:3, pages 496-505.
Crossref
Tara M Menna & Jacopo P Mortola. (2002) Metabolic control of pulmonary ventilation in the developing chick embryo. Respiratory Physiology & Neurobiology 130:1, pages 43-55.
Crossref
Kerstin Wagner-Amos & Roger S Seymour. (2002) Effect of regional changes to shell conductance on oxygen consumption and growth of chicken embryos. Respiration Physiology 129:3, pages 385-395.
Crossref
J Van Golde, T Mulder, H V Straaten & C E Blanco. (1996) The Chorioallantoic Artery Blood Flow of the Chick Embryo from Stage 34 to 43. Pediatric Research 40:6, pages 867-871.
Crossref
V.L. CHRISTENSEN, G.S. DAVIS & L.A. LUCORE. (1996) Eggshell Conductance and Other Functional Qualities of Ostrich Eggs. Poultry Science 75:11, pages 1404-1410.
Crossref
Fiona G. Burton, J.M. Stevenson & S.G. Tullett. (1989) The relationship between eggshell porosity and air space gas tensions measured before and during the parafoetal period and their effects on the hatching process in the domestic fowl. Respiration Physiology 77:1, pages 89-99.
Crossref
Bjørn Munro Jenssen & Magne Staurnes. (1989) Effects of oil on eggshell conductance. Comparative Biochemistry and Physiology Part C: Comparative Pharmacology 93:2, pages 221-223.
Crossref
Edward J Robel, Christopher C Lai, Li-Yao Li & Seymour G Gilbert. (1986) Permeability of turkey eggs from hens with different hatchability rates. Comparative Biochemistry and Physiology Part A: Physiology 84:4, pages 633-636.
Crossref
Theresa L. Bucher & M.Christopher Barnhart. (1984) Varied egg gas conductance, air cell gas tensions and development in Agapornis roseicollis. Respiration Physiology 55:3, pages 277-289.
Crossref
Roger S. Seymour. 1984. Respiration and metabolism of embryonic vertebrates. Respiration and metabolism of embryonic vertebrates 319 332 .
Ted N. Pettit & G. Causey Whittow. (1982) The initiation of pulmonary respiration in a bird embryo: Tidal volume and frequency. Respiration Physiology 48:2, pages 209-218.
Crossref
Ted N. Pettit & G. Causey Whittow. (1982) The initiation of pulmonary respiration in a bird embryo: Blood and air cell gas tensions. Respiration Physiology 48:2, pages 199-208.
Crossref
G Nair, G.K Baggott & C.M Dawes. (1982) Gas tensions within the egg of the quail (Coturnix c. Japonica) during the closing stages of embryonic development. Comparative Biochemistry and Physiology Part A: Physiology 71:2, pages 313-316.
Crossref
H. RAHN, V.L. CHRISTENSEN & F.W. EDENS. (1981) Changes in Shell Conductance, Pores, and Physical Dimensions of Egg and Shell During the First Breeding Cycle of Turkey Hens ,. Poultry Science 60:11, pages 2536-2541.
Crossref
Ralph A. Ackerman, G. Causey Whittow, Charles V. Paganelli & Ted N. Pettit. (1980) Oxygen Consumption, Gas Exchange, and Growth of Embryonic Wedge-Tailed Shearwaters (Puffinus pacificus chlororhynchus). Physiological Zoology 53:2, pages 210-221.
Crossref
Donald F. Hoyt & Hermann Rahn. (1980) Respiration of avian embryos — A comparative analysis. Respiration Physiology 39:3, pages 255-264.
Crossref
H. Lundy. (2012) Recent Studies in Poultry Calorimetry. Proceedings of the Nutrition Society 37:1, pages 55-63.
Crossref
K. F. Laughlin. 1978. Respiratory Function in Birds, Adult and Embryonic. Respiratory Function in Birds, Adult and Embryonic 298 303 .
R. S. Seymour & H. Rahn. 1978. Respiratory Function in Birds, Adult and Embryonic. Respiratory Function in Birds, Adult and Embryonic 243 246 .
C.M Dawes. (1977) The effects of restricting gaseous exchange across the egg shell on the respiratory movements of the hatching chick. Comparative Biochemistry and Physiology Part A: Physiology 58:1, pages 7-10.
Crossref
Rudolf Drent. 1975. Avian Biology. Avian Biology 333 420 .
H. Rahn, C.V. Paganelli & A. Ar. (1974) The avian egg: air-cell gas tension, metabolism and incubation time. Respiration Physiology 22:3, pages 297-309.
Crossref
Ronald W. Oppenheim. 1973. Behavioral Embryology. Behavioral Embryology 163 244 .
Lewis W. Taylor, G. Oscar Kreutzige & Gary L. Abercrombie. (1971) The Gaseous Environment of the Chick Embryo in Relation to Its Development and Hatchability. Poultry Science 50:1, pages 66-78.
Crossref
Margaret A. Vince & R. C. H. Cheng. (2005) Effects of stimulation on the duration of lung ventilation in quail fetuses. Journal of Experimental Zoology 175:4, pages 477-486.
Crossref
B.M Freeman & B.H Misson. (1970) pH, pO2 and pCO2 of blood from the foetus and neonate of Gallus domesticus. Comparative Biochemistry and Physiology 33:4, pages 763-772.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.