Physiological dominance and physiological isolation in development and reconstitution

  • C. M. Child
Article

Keywords

Developmental Biology Physiological Isolation Physiological Dominance 

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

Literature cited

  1. Bardeen, C. R. (1903): Factors in Heteromorphosis in Planarians. Arch. Entw.mechan.16.Google Scholar
  2. Behre, Elinor H. (1918): An Experimental Study of Acclimation to Temperature inPlanaria dorotocephala. Biol. Bull.35.Google Scholar
  3. Bellamy, A. W. (1919): Differential susceptibility as a Basis for Modification and Control of Development in the Frog. I. Biol. Bull.37.Google Scholar
  4. Bose, J. C. (1906): Plant Response. London and New York.Google Scholar
  5. - (1907): Comparative Electrophysiology. London and New York.Google Scholar
  6. - (1913): Researches on Irritability of Plants. London and New York.Google Scholar
  7. - (1925): Physiological and Anatomical Investigations onMimosapudica. Proc. roy. Soc. Lond. B.98.Google Scholar
  8. - (1926): The Nervous Mechanism of Plants. London and New York.Google Scholar
  9. Boysen-Jensen, P. (1910): Über die Leitung des tropistischen Reizes usw. Ber. dtsch. bot. Ges.28.Google Scholar
  10. Brachet, A. (1923): Recherches sur les localisations germinales et leur propriétés ontogenetiques dans l'oeuf deRana fusca. Arch. Biol.33.Google Scholar
  11. - (1927): Étude comparative des localisations germinales dans l'oeuf des amphibiens urodèles et anoures. Roux' Arch.111.Google Scholar
  12. Brook, G. (1893): The GenusMadrepora. Catalogue of Madreporarian Corals in the British Museum.Google Scholar
  13. Browne, Ethel M. (1909): The production of New Hydranths inHydra by the Insertion of Small Grafts. J. of exper. Zool.7.Google Scholar
  14. Buchanan, J. W. (1922): The Control of Head Formation inPlanaria by Means of Anesthetics. Ebenda36.Google Scholar
  15. Child, C. M. (1903): Studies on Regulation. III. Arch. Entw.mechan.17.Google Scholar
  16. - (1907 a): An Analysis of Form Regulation inTubularia. I. Ebenda23.Google Scholar
  17. - (1907 b): An Analysis of Form Regulation inTubularia. IV. Ebenda24.Google Scholar
  18. - (1907 c): An Analysis of Form Regulation inTubularia. V. Ebenda24.Google Scholar
  19. - (1909): Factors of Form Regulation inHarenactis attenuata. J. of exper. Zool.7.Google Scholar
  20. - (1910 a): Physiological Isolation of Parts and Fission inPlanaria. Arch. Entw.mechan.30, II. Teil.Google Scholar
  21. - (1910 b): Further Experiments on Adventitious Reproduction and Polarity inHarenactis. Biol. Bull.20.Google Scholar
  22. - (1911 a): Studies on the Dynamics of Morphogenesis etc. I. J. of exper. Zool.10.Google Scholar
  23. - (1911 b): Studies on the Dynamics of Morphogenesis etc. II. Ebenda11.Google Scholar
  24. - (1911 c): Studies on the Dynamics of Morphogenesis etc. III. Ebenda11.Google Scholar
  25. - (1911 d): Die physiologische Isolation von Teilen des Organismus usw. Vortr. u. Aufs. über Entw.mechan. H. 11.Google Scholar
  26. - (1911 e): Experimental Control of Morphogenesis in the Regulation ofPlanaria. Biol. Bull.20.Google Scholar
  27. - (1912 a): Studies on the Dynamics of Morphogenesis etc. IV. J. of exper. Zool.13.Google Scholar
  28. - (1912 b): Correlation in Regulation. Proc. 7th Internat. Zool. Congress. Boston 1907. Published 1912.Google Scholar
  29. - (1913 a): Studies on the Dynamics of Morphogenesis etc. VI. Arch. Entw.mechan.37.Google Scholar
  30. - (1913 b): Certain Dynamic Factors in Experimental Reproduction and their Significance for the Problems of Reproduction and Development. Ebenda35.Google Scholar
  31. - (1914 a): Studies on the Dynamics of Morphogenesis etc. VII. J. of exper. Zool.16.Google Scholar
  32. - (1914 b): Studies on the Dynamics of Morphogenesis etc. VIII. Ebenda17.Google Scholar
  33. - (1915): Individuality in Organisms. Chicago.Google Scholar
  34. - (1916): Studies on the Dynamics of Morphogenesis etc. IX. J. of exper. Zool.21.Google Scholar
  35. - (1917 a): Experimental Alteration of the Axial Gradient in the Alga,Griffithsia bornetiana. Biol. Bull.32.Google Scholar
  36. - (1917 b): Differential Sussceptibility and Differential Inhibition in the Development of Polychete Annelids. J. of Morph.30.Google Scholar
  37. - (1919): The Axial Gradients in Hydrozoa. II. Biol. Bull.37.Google Scholar
  38. - (1920 a): Studies on the Dynamics of Morphogenesis etc. X. J. of exper. Zool.30.Google Scholar
  39. - (1920 b): Physiological Isolation by Low Temperature inBryophyllum. Bot. Gaz.70.Google Scholar
  40. - (1921 a): The Origin and Development of the Nervous System etc. Chicago.Google Scholar
  41. - (1921 b): Certain Aspects of the Problem of Correlation. Amer. J. of Bot.8.Google Scholar
  42. - (1921 c): The Axial Gradients in Hydrozoa. IV. Biol. Bull.41.Google Scholar
  43. - (1921 d): Studies on the Dynamics of Morphogenesis etc. XI. J. of exper. Zool.33.Google Scholar
  44. - (1923): The Axial Gradients in Hydrozoa. V. Biol. Bull.45.Google Scholar
  45. - (1924): Physiological Foundations of Behavior. New York.Google Scholar
  46. - (1925 a): The Axial Gradients in Hydrozoa. VI. Biol. Bull.48.Google Scholar
  47. - (1925 b): The Physiological Significance of the Cephalocaudal Differential in Vertebrate Development. Anat. Rec.31.Google Scholar
  48. - (1926 a): Studies on the Axial Gradients inCorymorpha palma. 11. Biol. Gen.2.Google Scholar
  49. - (1926 b): Studies on the Axial Gradients inCorymorpha palma. 111. Ebenda.Google Scholar
  50. - (1927): Experimental Localization of New Axes inCorymorpha without Obliteration of the Original Polarity. Biol. Bull.53.Google Scholar
  51. - (1928 a): Physiological Polarity and Dominance in the Holdfast System ofCorymorpha. Ebenda54.Google Scholar
  52. - (1928 b): Axial Development in Aggregates of Dissociated Cells fromCorymorpha palma. Physiologic. Zool.1.Google Scholar
  53. - (1928 c): Sammelreferat. The Physiological Gradients. Protoplasma (Lpz).5.Google Scholar
  54. Child, C. M. andBellamy, A. W. (1919): Physiological Isolation by Low Temperature inBryophyllum and other Plants. Science50.Google Scholar
  55. Child, C. M. andHyman, L. H. (1919): The Axial Gradients in Hydrozoa. I. Biol. Bull.36.Google Scholar
  56. de Beer, G. R. (1927): The Mechanics of Vertebrate Development. Biol. Rev.2.Google Scholar
  57. Driesch, H. (1897): Studien über das Regulationsvermögen der Organismen. I. Arch. Entw.mechan.5.Google Scholar
  58. Fitting, H. (1907): Die Reizleitungsvorgänge bei den Pflanzen. Sonderabdr. aus Erg. Physiol.415.Google Scholar
  59. Flexner, S. (1898): The Regeneration of the Nervous System ofPlanaria torva and the Anatomy of Double Headed Forms. J. of Morph.14.Google Scholar
  60. Gelnltz, B. (1905): Embryonale Transplantation zwischen Urodelen und Anuren. Roux' Arch.106.Google Scholar
  61. Gilchrist, F. G. (1928): The Effect of a Horizontal Temperature Gradient on the Development of the Egg of the UrodeleTriturus torosus. Physiologic. Zool.1.Google Scholar
  62. Goerttler, K. (1925): Die Formbildung der Medullaranlage bei Urodelen. Roux' Arch.106.Google Scholar
  63. - (1927): Die Bedeutung gestaltender Bewegungsvorgänge beim Differenzierungsgeschehen. Ebenda112.Google Scholar
  64. Goldfarb, A. J. (1909): The Influence of the Nervous System in Regeneration. J. of exper. Zool.7.Google Scholar
  65. - (1914): Regeneration in the Annelid Worm,Amphinoma pacifica after Removal of the Central Nervous System. Extr. publ. 183, Carnegic Institution.Google Scholar
  66. Hinrichs, Marie A. (1924): A Study of the Physiological Effects of Caffein uponPlanaria dorotocephala. J. of exper. Zool.40.Google Scholar
  67. - (1927): Modification of Development on the Basis of Differential Susceptibility to Radiation. IV. Ebenda47.Google Scholar
  68. Huxley, J. S. (1921): Studies in Dedifferentiation. II. Quart. J. microsc. Sci.65.Google Scholar
  69. Hyman, L. H. (1916): An Analysis of the Process of Regeneration in Certain Microdrilous Oligochaetes. J. of exper. Zool.20.Google Scholar
  70. - (1920): the Axial Gradients in Hydrozoa. III. Ebenda38.Google Scholar
  71. - (1921): the Metabolic Gradients of Vertebrate Embryos. I. Biol. Bull.40.Google Scholar
  72. - (1923): Physiological Studies onPlanaria. V. J. of exper. Zool.37.Google Scholar
  73. - (1926 a): The Axial Gradients in Hydrozoa. VIII. Biol. Bull.50.Google Scholar
  74. - (1926 b): The Metabolic Gradients of Vertebrato Embryos. II. J. Morph. a. Physiol.42.Google Scholar
  75. - (1927): the Metabolic Gradients of Vertebrate Embryos. III. Biol. Bull.52.Google Scholar
  76. - (1928): Miscellaneous Observations onHydra with Special Reference to Reproduction. Ebenda54.Google Scholar
  77. Hyman, L. H. andGallgher, A. E. (1921): A direct Demonstration of the Existence of a Metabolic Gradient in Annelids. J. of exper. Zool.34.Google Scholar
  78. Keillor, V. H. (1910): A Histological Study of Regeneration in Short Head Pieces ofPlanaria simplicissima. Arch. Entw.mechan.31.Google Scholar
  79. Lehmann, F. E. (1926): Entwicklungsstörungen in der Medullaranlage vonTriton erzeugt durch Unterlagerungsdefekte. Roux' Arch.108.Google Scholar
  80. - (1928): Die Bedeutung der Unterlagerung für die Entwicklung der Medullarplatte vonTriton. Ebenda113.Google Scholar
  81. Loeb, J. (1892): Untersuchungen zur physiologischen Morphologie. II. Würzburg.Google Scholar
  82. - (1904): Concerning Dynamic Conditions which Contribute Toward the Morphological Polarity of Organisms. Univ. California Publ. Physiol.1 Google Scholar
  83. Mangold, O. (1926): Über formative Reize in der Entwicklung der Amphibien. Naturwiss.14.Google Scholar
  84. - (1928): Neue Experimente zur Analyse der frühen Embryonalentwicklung des Amphibienkeims. Ebenda16.Google Scholar
  85. Mangold, O. undSpemann, H. (1927): Über Induktion von Medullarplatte durch Medullarplatte im jüngeren Keim, ein Beispiel homöogenetischer oder assimilatorischer Induktion. Roux' Arch.111.Google Scholar
  86. Morgan, T. H. (1901): Growth and Regeneration inPlanaria lugubris. Ebenda13.Google Scholar
  87. - (1903): Some Factors in the Regeneration ofTubularia. Ebenda16.Google Scholar
  88. - (1904 a): The Control of Heteromorphosis inPlanaria maculata. Ebenda17.Google Scholar
  89. - (1904 b): The Regeneration of Heteromorphic Tails in Posterior Pieces ofPlanaria simplicissima. J. of exper. Zool.1.Google Scholar
  90. Morgan, T. H. andStevens,N. M. (1904): Experiments on Polarity inTubularia. Ebenda.Google Scholar
  91. Němec, B. (1901): Die Reizleitung und die reizleitenden Strukturen bei den Pflanzen. Jena.Google Scholar
  92. Paal, A. (1918): Über phototropische Heizleitung. Jb. wiss. Bot.58.Google Scholar
  93. Rand, H. W. (1911): The Problem of Form inHydra. Science (N. Y.)33.Google Scholar
  94. - (1912): The Problem of Organization. Ebenda36.Google Scholar
  95. Ricca, U. (1916): Solution d'un Problême de Physiologie. Arch. ital. de Biol.65.Google Scholar
  96. Rustia, C. P. (1925): The Control of Biaxial Development in the Reconstitution of Pieces ofPlanaria. J. of exper. Zool.42.Google Scholar
  97. Shearer, C. (1924): On the Oxygen Consumption Rate of Parts of the Chick Embryo and Fragments of the Earthworm. Proc. Roy. Soc. Lond. B.96.Google Scholar
  98. Snow, R. (1923): The Conduction of Geotropic Excitation in Roots. Ann. of Bot.37.Google Scholar
  99. - (1924 a): Further Experiments on the Conduction of Tropic Excitation. Ebenda38.Google Scholar
  100. - (1924 b): Conduction of Excitation in Stem and Leaf ofMimosapudica. Proc. roy. Soc. Lond. B.96.Google Scholar
  101. - (1925 a): Conduction of Excitation in the Leaf ofMimosa spegazzinii. Ebenda98.Google Scholar
  102. - (1925 b): The Correlative Inhibition of the Growth of Axillary Buds. Ann. of Bot.39.Google Scholar
  103. Spemann, H. (1918): Über die Determination der ersten Organanlagen des Amphibienembryo. I–VI. Arch. Entw.mechan.43.Google Scholar
  104. - (1925): Some Factors of Animal Development. Brit. J. exper. Biol.2.Google Scholar
  105. - (1927): Organizers in Animal Development. Proc. roy. Soc. Lond. B.102.Google Scholar
  106. Stark, P. (1921): Studien über traumatope und haptotrope Reizleitungsvorgänge. Jb. wiss. Bot.40.Google Scholar
  107. Stark, P. undDrechsel, O. (1922): Phototropische Reizleitungsvorgänge bei Unterbrechung des organischen Zusammenhangs. Ebenda41.Google Scholar
  108. van Cleave, C. D. (1928): An experimental Study of Fission and Reconstitution inStenostomum. Physiologic. Zool.2.Google Scholar
  109. Vaughan, T. W. (1918): Some Shoal Water Chorals from Murray Island etc. Papers from the Dept. of Marine Biol.9. Carnegie Inst. Publ.213.Google Scholar
  110. Vöchting, H. (1885): Über die Regeneration der Marchantiaceen. Jb. wiss. Bot.16.Google Scholar
  111. Wood-Jones, F. (1907): On the Growth Forms and Supposed Species of Corals. Proc. zool. Soc. London 1907.Google Scholar
  112. - (1912): Coral and Atolls. London.Google Scholar

Copyright information

© Verlag von Julius Springer 1929

Authors and Affiliations

  • C. M. Child
    • 1
  1. 1.Zoological LaboratoryUniversity of ChicagoUSA

Personalised recommendations