in the tonic condition of the tissue, give rise to dia- metrically opposite effects. In demonstrating this, I took a specimen in a sub-tonic condition, in which the conducting power of the tissue was so far below par, that the test- stimulus applied at a distance of 15 mm. failed to be transmitted (Fig. 43). The end of the petiole at a distance
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Fig. 43. — Effect of injury in enhancing the conducting power of a sub- normal specimen"; (1) Ineffective transmission becoming effective at (2) after section ; (3) decline after half an hour, and (4) iacreased conductivity after a fresh cut.
of 1 cm. beyond the point of application of test-stimulus was now cut off. The after-efl'ect of this injury was found to enhance the conducting power so that the stimulus previously arrested was now effectively transmitted, the velocity being 25 mm. per sec. This enhanced conducting power began slowly to decline, and after half an hour the velocity had declined to 4'1 mm. per sec. The end of the petiole was cut once more, and the effect of injury was again found to enhance the conducting power, the velocity of transmission being restored to 25 mm. per sec.
SUMMARY.
There are two different types of propagation of excit- ation : by convection, and by conduction. In the former the excited cell undergoes deformation and causes mechanical stimulation of the next ; example of this type is seen in
