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游动海葵(Stomphia coccinea)中贝壳沉降的控制

Control of shell settling in the swimming sea anemone Stomphia coccinea.

作者信息

Lawn I D

出版信息

J Exp Biol. 1976 Apr;64(2):419-29. doi: 10.1242/jeb.64.2.419.

DOI:10.1242/jeb.64.2.419
PMID:6607
Abstract
  1. Electrical activity has been recorded from Stomphia coccinea during the behavioural sequence in which the detached anemone settles on to a Modiolus shell. 2. When a responsive tentacle contacts the shell, a short, complex burst of pulses is elicited. These remain confined to the region of contact. The endodermal slow-conduction system (SS2) then begins to fire repetitively (a typical example is 16 SS2 pulses at a mean interpulse interval of 5 s) until the pedal disc begins to inflate. Shell-tentacle contact is essential for stimulation of SS2 activity. 3. The complete response, apart from local bending of the column, may be reproduced by electrical stimulation of the SS2 alone. As few as 10 stimuli at frequencies between 1 shock/s and 1 shock/10 s are required to elicit the response.
摘要
  1. 在海葵脱离后附着到偏顶蛤贝壳上的行为过程中,已经记录到了华丽海葵的电活动。2. 当一条敏感的触手接触到贝壳时,会引发一阵短暂、复杂的脉冲。这些脉冲仍局限于接触区域。然后内胚层慢传导系统(SS2)开始重复放电(一个典型例子是16个SS2脉冲,平均脉冲间隔为5秒),直到足盘开始膨胀。贝壳与触手的接触对于刺激SS2活动至关重要。3. 除了柱体的局部弯曲外,完整的反应仅通过对SS2进行电刺激就可以重现。在1次电击/秒至1次电击/10秒的频率下,只需少至10次刺激就能引发该反应。

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1
Control of shell settling in the swimming sea anemone Stomphia coccinea.游动海葵(Stomphia coccinea)中贝壳沉降的控制
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