Tension and heat production during isometric contractions and shortening in the anterior byssus retractor muscle of Mytilus edulis.

1. Tension and heat production were measured during phasic isometric contractions and isovelocity shortening in the anterior byssus retractor muscle (ABRM) of Mytilus edulis at 20 degrees C. 2. Isometric tension at lo was 550 +/‐ 40 mN/mm2 (S.D. for 173 observations in nine muscles), while the isometric maintenance heat rate was 1.0 +/‐ 0.2 mW/g wet wt. (S.D. for seventy‐eight observations in eight muscles). 3. Isometric tension and heat production were measured as functions of muscle length over a range of 0.79‐‐1.14 lo and were found to bear a linear relation to each other. 4. The force‐velocity relation was determined in isovelocity releases imposed during tetanic stimulation and was found to fit the Hill equation with parameters alpha/Po = 0.07 +/‐ 0.01 and b/lo = 0.016 +/‐ 0.0007 sec‐1 (S.E. from non‐linear least‐squares regression of the pooled data from seven experiments). 5. Heat production measured in the same experiments showed that shortening heat is produced with a shortening heat coefficient alpha/Po of 0.15. Shortening heat does not appear to be force‐dependent, and separate experiments confirmed that it is a linear function of the amount of shortening.