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  • 1925-1929  (3)
  • 1926  (3)
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  • 1925-1929  (3)
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  • 1
    Electronic Resource
    Electronic Resource
    Reactions to light in Volvox, with special reference to the process of orientation (1926)
    Springer
    Journal of comparative physiology 4 (1926), S. 637-658 
    Details
    ISSN: 1432-1351
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Summary 1. Volvox rotates on the longitudinal axis as it swims through the water. This is due to the fact that the flagella usually beat diagonally backward. 2. If the luminous intensity is suddenly decreased without changing the direction of the rays photopositive colonies which are oriented stop rotating and spurt directly forward. This is due to a change in the direction of the stroke of the flagella from diagonal to more nearly directly backward. 3. If the intensity is suddenly increased locomotion stops and the rate of rotation increases. This is due to a change in the direction of the stroke of the flagella from diagonal to more nearly sidewise. 4. Photonegative colonies react precisely the same as photopositive colonies except that the effects of increase and decrease in luminous intensity on the direction of the stroke of the flagella is reversed. 5. If, after either of these changes in the direction of the stroke o f the flagella has been initiated, there is no further change in the intensity of the light, the flagella continue to strike in the new direction for only 2.5 + seconds, after which they again strike in the direction which obtained before the intensity was changed. 6. If the intensity is gradually changed, there is no observable response unless the new intensity is maintained for a considerable period of time, which may result in increase or decrease in activity. 7. The eye-spots in Volvox consist of a pigment-cup, a lens which is located at the opening of the cup, and photosensitive substance which is located in the cup. There is one in each zooid, and all face outward. They are primitive eyes. 8. Orientation in photopositive colonies is due to an increase in the backward component of the stroke of the flagella on the shaded side and a decrease in this component on the opposite side. The former is due to reduction of light caused by the shadow of the pigment-cup on the photosensitive substance as the zooids are transferred from the illuminated side of the colony to the shaded side; the latter to increase of light caused by exposure of this substance as the zooids are transferred from the shaded to the illuminated side. 9. In negative colonies precisely the opposite obtains in the process of orientation. 10. Photic orientation is due to a change in the direction of the stroke of the flagella and not to change in activity. Galvanic orientation is due to decrease in activity on the side toward which the colonies turn. The processes involved are consequently not the same. 11. The orienting stimulus and the changes in the direction of the stroke of the flagella which result in orientation cease after the colonies are oriented. They remain oriented because, in the absence of external stimulation, they tend to take a straight course and because, as soon as they swerve from this course, opposite sides become unequally illuminated, resulting in change of intensity on the photosensitive substance in the eyes which leads to reorientation.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00342378
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    Paper (German National Licenses)
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  • 2
    Electronic Resource
    Electronic Resource
    Reversal of ciliary action in paramecium caudatumContribution from the Zoological Laboratory of the Johns Hopkins University and the Marine Biological Laboratory, Woods Hole. (1926)
    New York, NY : Wiley-Blackwell
    Journal of Morphology 43 (1926), S. 105-117 
    Details
    ISSN: 0362-2525
    Keywords: Life and Medical Sciences ; Cell & Developmental Biology
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Biology , Medicine
    Notes: 1Monovalent cation salts induce reversal in the direction of the stroke of the cilia; bivalent and trivalent cation salts with a few exceptions do not. Some acids induce reversal, others do not.2The duration of reversed action varies with the kind of salt and with the concentration. As the concentration increases, the duration of reversed action increases to a maximum and then decreases to zero.3Bivalent and trivalent cation salts neutralize the effect of monovalent cation salts. The relative amount required varies with the kind of salt used and with the concentration.4The amount of a given salt required to neutralize another salt is not proportional to the concentration of the salt neutralized. Weber's law does not hold.5The results seem to indicate that ciliary reversal is associated with differential adsorption and consequent changes in electric potential, but that there are also other factors involved.
    Additional Material: 1 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/jmor.1050430106
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  • 3
    Electronic Resource
    Electronic Resource
    Structure, movement, locomotion, and stimulation in amoeba (1926)
    New York, NY : Wiley-Blackwell
    Journal of Morphology 41 (1926), S. 347-425 
    Details
    ISSN: 0362-2525
    Keywords: Life and Medical Sciences ; Cell & Developmental Biology
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Biology , Medicine
    Notes: Amoeba proteus contains a central elongated fluid portion (plasmasol), a rigid layer surrounding this (plasmagel), a thin elastic surface layer (plasmalemma), and a hyaline layer between the plasmagel and the plasmalemma which is fluid at the tip of active pseudopods and in certain other regions.The plasmasol is an emulsion. It consists of a fluid in which various vacuoles and granuoles are suspended. The plasmagel is probably alveolar in structure. It contains the same kinds of substances as the plasmasol, but some of the fluid appears to be gelated so as to form alveoli. The plasmalemma probably consists of interwoven protein fibers and a lipoid which fills the interstices.The plasmasol is probably hypertonic; the plasmagel and the plasmalemma are probably semipermeable. This and other factors result in an excess inflow of water, stretching the plasmagel and the plasmalemma. When a pseudopod is formed, the inner portion of the plasmagel liquefies locally. This produces a local decrease in elastic strength resulting in the formation of a protuberance, a pseudopod. As this is formed there is contraction at the posterior end, resulting in forward flow of the plasmasol and extension of the pseudopod.If the pseudopod is attached, the plasmalemma, being attached to the substratum and to the adjoining plasmagel, slides over the plasmagel above and remains stationary below, rolling movement results. If it is free, the plasmalemma is stretched out with movement in it equal on all sides. If the free pseudopods become attached to the substratum at the tip after they are thus formed, walking movement results.During locomotion of either type, the plasmasol continuously gelates at the tip of the extending pseudopods forming plasmagel, and the plasmagel continuously solates at the posterior end forming plasmasol.Response is due largely to changes in the elastic strength of the plasmagel in the adhesiveness of the plasmalemma and in turgidity.Locomotion in Amoeba verrucosa is in principle the same as it is in Amoeba proteus.
    Additional Material: 10 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/jmor.1050410205
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