Patterns Of Circular And Radial Mantle Muscle Activity in Respiration and Jetting of the Squid Loligo Opalescens

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Journal of Experimental Biology 104,97-109 (1983)
Published by Company of Biologists 1983

Patterns Of Circular And Radial Mantle Muscle Activity in Respiration and Jetting of the Squid Loligo Opalescens

JOHN M. GOSLINE ¹, JOHN D. STEEVES ², ANTHONY D. HARMAN ³, and M. EDWIN DEMONT ²

¹ Department of Zoology, University of British Columbia, Vancouver, B.C., Canada, V6T2A9; and Bamfield Marine Station, Bamfield, B.C., Canada
² Department of Zoology, University of British Columbia, Vancouver, B.C., Canada, V6T 2A9; Bamfield Marine Station, Bamfield, B.C., Canada
³ Department of Zoology, University of British Columbia Vancouver, B.C., Canada, V6T 2A9; Bamfield Marine Station, Bamfield, B.C., Canada

1. By simultaneously recording the electromyographic (EMG) activityof squid mantle muscles, changes in mantle cavity pressure andchanges in mantle diameter, we have been able to distinguishthe pattern of radial muscle activity from circular muscle activity,and in so doing were able to determine the functional role ofthese muscle groups in motor behaviours.

2. Three distinguishablephases of activity appear during escape jets: (i), hyper-inflationbrought about by the contraction of the radial muscles; (ii),the jet powered by the contraction of circular muscles; and(iii), refilling powered largely by the elastic recoil of themantle wall, but with a small contribution from the radial muscles.

3.Two distinctly different patterns of muscular activity wereseen in respiratory movements. One pattern (pattern I) is poweredby the radial muscles alone, while the other (pattern II) ispowered by the circular muscles alone. In both modes of respiration,the muscles are apparently antagonized by tissue elasticity.

4.Thus, the storage of elastic energy in the connective tissuefibre-lattice of the mantle wall plays a very important rolein both modes of squid movement.

Key words: Squid, muscle activity, locomotion

Submitted on July 27, 1982
Accepted on October 27, 1982

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