Bailey FR. and Miller AM. Text-Book of Embryology (1921) New York: William Wood and Co.
- Contents: Germ cells | Maturation | Fertilization | Amphioxus | Frog | Chick | Mammalian | External body form | Connective tissues and skeletal | Vascular | Muscular | Alimentary tube and organs | Respiratory | Coelom, Diaphragm and Mesenteries | Urogenital | Integumentary | Nervous System | Special Sense | Foetal Membranes | Teratogenesis | Figures
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Pages where the terms "Historic" (textbooks, papers, people, recommendations) appear on this site, and sections within pages where this disclaimer appears, indicate that the content and scientific understanding are specific to the time of publication. This means that while some scientific descriptions are still accurate, the terminology and interpretation of the developmental mechanisms reflect the understanding at the time of original publication and those of the preceding periods, these terms, interpretations and recommendations may not reflect our current scientific understanding. (More? Embryology History | Historic Embryology Papers)
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The germ cells
The germ cells
Fig. 1. From a section of the ovary of a 12-year old girl
Fig. 2. Ovum of frog (Rana sylvatica).
Fig. 3. Diagram of a vertical section through an unfertilized hen's egg
Fig. 4. Diagram of a human spermatozoon.
Fig. 5. Various types of spermatozoa
Maturation
Maturation
Fig. 6. Schematic outline of spermatogenesis in the rat.
Fig. 7. Reduction of chromosomes in spermatogenesis in Ascaris megalocephala (bivalens).
Fig. 8. Transformation of a spermatid into a spermatozoon (human).
Fig. 9. Three stages in spermatogenesis in man (negro).
Fig. 10. Maturation of the ovum of Ascaris megalocephala (bivalens)
Fig. 11. From sections of ova of the mouse, showing stages in the maturation process
Fig. 12. Diagram representing the histogenesis of (a) the female sex cells and (6) the male sex cells
Fig. 13. Stages in the spermatogenesis of a grasshopper (Stenobothrus viridulus)
Fig. 14. From section of human ovary, showing mature Graafian follicle ready to rupture
Fertilization
Fertilization
Fig. 15. Diagram of fertilization of the ovum
Fig. 16. Fertilization of the eggs of the star-fish and sea-urchin
Fig. 17. Polyspermy in sea-urchin eggs treated with 0.005 per cent, nicotine solution
- Links: Fertilization | Category:Fertilization
Early development of amphioxus
Early development of amphioxus
Fig. 18. Diagram of a median sagittal section through an Amphioxus ovum
Fig. 19. Prophase of first cleavage the sagittal plane of the embryo
Fig. 20. Cleavage in Amphioxus
Fig. 21. Gastrulation in Amphioxus
Fig. 25. Diagram to show differentiation of primitive segment into muscle plate (myotome) and cutis plate and relation of myocoel and splanchnocoel
Early development of the frog
Early development of the frog
Fig. 26. Section through the fully formed ovarian egg of a frog.
Fig. 27. A frog's egg before and after fertilization, showing the formation of the gray crescent.
Fig. 28. Cleavage of the frog's egg.
Fig. 29. From a sagittal section through blastula of frog.
Fig. 30. Diagrams showing the position of the blastopore at successive stages of gastrulation in the frog's egg.
Fig. 31. Median sagittal sections showing successive stages of gastrulation in the frog's egg
Fig. 32. Transverse section of embryo of frog (Rana fusca).
Fig. 33. Transverse section through embryo of frog (Rana fusca).
Fig. 34. Portion of a transverse section still continuous at the lower lateral angles of the larva of a frog (Rana fusca)
Fig. 35. Diagrams of median sagittal sections through an eight-cell stage and four stages during gastrulation of the frog's egg.
Fig. 36. Postero-lateral views of successive stages following gastrulation in the frog.
Fig. 37. Median sagittal sections of frog larvae.
Early development of the chick
Early development of the chick
Fig. 38. Cleavage in hen's egg
Fig. 39. Vertical section germ disk of a fresh-laid hen's egg.
Fig. 40. Cross section blastoderm of a pigeon 14.5 hours after fertilization.
Fig. 41. Median longitudinal section blastoderm of a pigeon 31 hours after fertilization.
Fig. 42. Median longitudinal section blastoderm of a pigeon 36 hours after fertilization.
Fig. 43. Surface views of blastoderms of the pigeon.
Fig. 44. Surface views of blastoderms of Haliplana primitive streak.
Fig. 45. Surface view of embryonic disk of chick.
Fig. 46. Surface view of chick blastoderm.
Fig. 47. Transverse sections of blastoderm of chick 21 hours.
Fig. 48. Transverse section of blastoderm of chick 21 hours.
Fig. 49. Median longitudinal section blastoderm of chick after the primitive axis
Fig. 50. Transverse section of blastoderm of chick 40 hours.
Fig. 51. Dorsal view of chick embryo with ten pairs of mesodermal somites.
Fig. 52. Transverse section of chick embryo 2 days incubation.
- Links: Chicken Development
Early mammalian development
Early mammalian development
Fig. 53. Four stages in the cleavage of the ovum of the white rat.
Fig. 54. Four stages in cleavage of the ovum of the mouse.
Fig. 55. Four stages in the development of the bat.
Fig. 56. Sections of blastocysts of the white rat 5 days.
Fig. 57. Section of a 16-cell stage of an ovum of the opossum.
Fig. 58. Section of the blastocyst of the lemur Tarsius spectrum.
Fig. 59. Sections of blastodermic vesicle of bat.
Fig. 60. Three stages in the formation of the germ layers in the lemur Tarsius spectrum.
Development of the external form of the body
Development of the external form of the body
Fig. 83. Human embryo with 8 pairs of mesodermal somites
Fig. 84. Human embryo with 14 pairs of mesodermal somites.
Fig. 85. Human embryo of 2.6 mm.
Fig. 86. Human embryo of 4 mm.
Fig. 87. Human embryo 27 primitive segments.
Fig. 88. Human embryo with 28 primitive segments.
Fig. 89. Human embryo 11 mm.
Fig. 90. Human embryo of 15.5 mm.
Fig. 91. Human embryo of 17.5 mm (47-51 days).
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Fig. 92. Human embryo of 18.5 mm (52-54 days).
Fig. 93. Human embryo of 23 mm (2 months).
Fig. 94. Human embryo of 78 mm (3 months).
Fig. 95. Human embryo of 4 months.
Fig. 96. Ventral view of head of 8 mm human embryo.
Fig. 97. Ventral view of head of 11.3 mm human embryo.
Fig. 98. Ventral view of head of 13.7 mm human embryo.
Fig. 99. Ventral view of head of human embryo of 8 weeks.
The development of connective tissues and the skeletal system
The development of connective tissues and the skeletal system
The development of the vascular system
The development of the vascular system
- Links: Cardiovascular System Development
The muscular system
The development of the muscular system
The alimentary and organs
The development of the alimentary tube and appended organs
The respiratory system
The development of the respiratory system
Fig. 286. Transverse section of a 14 mm. pig embryo, at the level of the upper limb buds, showing especially the two bronchi
Fig. 287. Anlage of lungs of a human embryo of 4.3 mm. His.
Fig. 288. Anlage of lungs of a human embryo of 8.5 mm. His.
Fig. 289. Anlage of lungs of a human embryo of 10.5 mm. His.
Fig. 290. Transverse section of a pig embryo of 35 mm, showing the developing lungs (bronchial rami surrounded by mesoderm).
Fig. 291. Transverse sections of a rabbit embryo Showing how the omphalomesenteric veins (vom) push outward across the ccelom and fuse with the lateral body wall.
The coelom, pericardium, pleuroperitoneum, diaphragm and mesenteries
The development of the coelom, the pericardium, pleuroperitoneum, diaphragm and mesenteries
The urogenital system
The development of the urogenital system
The integumentary system
The development of the integumentary system
The nervous system
The nervous system
The organs of special sense
The organs of special sense
Foetal membranes
Foetal membranes
Teratogenesis
Teratogenesis
No images in this chapter.
Historic Disclaimer - information about historic embryology pages
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Pages where the terms "Historic" (textbooks, papers, people, recommendations) appear on this site, and sections within pages where this disclaimer appears, indicate that the content and scientific understanding are specific to the time of publication. This means that while some scientific descriptions are still accurate, the terminology and interpretation of the developmental mechanisms reflect the understanding at the time of original publication and those of the preceding periods, these terms, interpretations and recommendations may not reflect our current scientific understanding. (More? Embryology History | Historic Embryology Papers)
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Text-Book of Embryology: Germ cells | Maturation | Fertilization | Amphioxus | Frog | Chick | Mammalian | External body form | Connective tissues and skeletal | Vascular | Muscular | Alimentary tube and organs | Respiratory | Coelom, Diaphragm and Mesenteries | Urogenital | Integumentary | Nervous System | Special Sense | Foetal Membranes | Teratogenesis | Figures
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