OXYGEN CONSUMPTION OF MOTHS DURING REST, PRE-FLIGHT WARM-UP, AND FLIGHT IN RELATION TO BODY SIZE AND WING MORPHOLOGY

SUMMARY Morphometrics and oxygen consumption were studied in about 35 sphingids, 50 saturniids, and 20 other heterothermic moths belonging to various families. For the pooled data of all species the regression of oxygen consumption on mass in grams is described by the following equations: at rest, cm 3 /h = 0-402 g 0 " 6 ; during hovering flight, cm s /h = 59-43 0 " 818 ; during warm-up, cm 3 = i-i86g 0 " 896 . Similar equations are presented for the families Saturniidae and Sphingidae. In sphingids and saturniids thoracic mass, wing length, and wing area increased with body mass, whereas wing loading and aspect ratio were independent of body mass. The sphingids had higher wing loading, aspect ratio, and wing beat frequency during flight than the saturniids. Wing beat frequency was more tightly coupled to morphological parameters in sphingids than in saturniids. The allometry of resting and active aerobic metabolism in heterothermic moths is compared with that of reptiles, mammals and birds. The scaling of oxygen consumption during flight in the moths is almost identical to that of bats and birds.

[1]  B. Heinrich,et al.  A Field Study of Flight Temperatures in Moths in Relation to Body Weight and Wing Loading , 1973 .

[2]  J. Buck,et al.  Chapter 7 – RESPIRATION: SOME EXOGENOUS AND ENDOGENOUS EFFECTS ON RATE OF RESPIRATION* , 1974 .

[3]  M. May Warming rates as a function of body size in periodic endotherms , 2004, Journal of comparative physiology.

[4]  E. Zeuthen The Comparative Physiology of Respiration , 1892, Nature.

[5]  A. Krogh,et al.  The Mechanism of Flight Preparation in Some Insects , 1941 .

[6]  P. S. Enger,et al.  A note on the metabolism of a few giant, tropical, terrestrial arthropods , 1958 .

[7]  S. Thomas Metabolism during flight in two species of bats, Phyllostomus hastatus and Pteropus gouldii. , 1975, The Journal of experimental biology.

[8]  B. Heinrich,et al.  An Analysis of Pre-Flight Warm-Up in the Sphinx Moth, Manduca Sexta , 1971 .

[9]  B. Heinrich,et al.  Metabolic rates related to muscle activity in bumblebees. , 1974, The Journal of experimental biology.

[10]  J. E. Heath,et al.  Regulation of heat production by large moths. , 1967, The Journal of experimental biology.

[11]  S. Hemmingsen,et al.  Energy metabolism as related to body size and respiratory surfaces, and its evolution , 1960 .

[12]  T. Casey,et al.  Flight energetics of sphinx moths: power input during hovering flight. , 1976, The Journal of experimental biology.

[13]  T. Casey,et al.  Endothermy during terrestrial activity in large beetles. , 1977, Science.

[14]  B. Heinrich Thermoregulation in Endothermic Insects , 1974, Science.

[15]  G. Bartholomew,et al.  Allometry of post-flight cooling rates in moths: a comparison with vertebrate homeotherms. , 1975, The Journal of experimental biology.