Aw. Smits et Ed. Brodie, LACK OF RESPIRATORY COST OF TAIL AUTOTOMY IN THE LUNGLESS SALAMANDER,OEDIPINA-UNIFORMIS, Comparative biochemistry and physiology. Part A, Physiology, 111(1), 1995, pp. 155-161
Tail autotomy, an effective antipredator adaptation that enhances surv
ival, may have attendant costs for the surviving prey. One potential c
ost not previously addressed in long-tailed, lungless salamanders that
sacrifice the majority of their body mass by tail autotomy is the sub
stantial reduction in respiratory surface area (RSA). We have tested t
he respiratory cost of tail autotomy in the bolitoglossine salamander,
Oedipina uniformis, by (1) comparing resting and post-exercise oxygen
consumption (VO2) in tailed and tailless Oedipina, and (2) comparing
the tissue composition of bodies and tails. Metabolic studies indicate
d no significant effect of tail condition (pre- vs. post-autotomy) on
resting VO2, the duration of exercise prior to exhaustion, or post-exe
rcise VO2; aerobic recovery from exercise was also independent of tail
condition. Tissue analyses (water and ash content, carbohydrate, lipi
d, and protein fractions) revealed that Oedipina bodies and tails are
similar in composition (both high in muscle, low in lipid); thus the t
ail is largely a metabolically-homogeneous extension of the body. Our
data suggest that tail autotomy in Oedipina does not alter the ratio b
etween metabolically-active tissue mass and RSA, and that a respirator
y cost of tail autotomy is of minor importance.