Genetic variability of flight metabolism in Drosophila melanogaster. III. Effects of Gpdh allozymes and environmental temperature on power output.

The effect of allozyme variation at the sn-glycerol-3-phosphate dehydrogenase (Gpdh) locus on variation in the mechanical power output of the flight muscles of Drosophila melanogaster was investigated. The influence of different rearing and flight temperatures and of their interactions with the Gpdh allozymic genotypes (allotypes) on flight ability also were analyzed. Populations from three continents were used, and Gpdh allotypes were generated from crosses between randomly paired isofemale lines made autozygous for each of the two alleles by inbreeding. Measurements made during tethered flight, together with wing morphology, were used to estimate power output using both Weis-Fogh's and Ellington's formulas. Analyses of variance (ANOVA) indicated significant main effects for both environmental components (rearing and flight temperatures) but for only one of the three genetic components (genetic backgrounds within continent); Gpdh allotypes and populations (continent of origin) were not significant. The interaction between rearing and flight temperature was highly significant, indicating some physiological adaptation. The effect of Gpdh allozymes depended on both rearing and flight temperature and was either significant or marginally so, depending on which set of formulas was used. In either case, the S/S allotype showed a 2-4% greater power output than the F/F allotype at low temperature for both interactions. In addition, the S/S allotype showed significantly greater power output than the F/F allotype among flies raised at 15 degrees and flown at 15 degrees, whereas the reverse was true for flies raised at 30 degrees and flown at 30 degrees. Significant differences among the three allotypes for GPDH activity level were found in general, with S/S having the highest, F/S intermediate and F/F the lowest activity, and an inverse relationship existed between rearing temperature and activity. The temperature effects on power output are consistent with the geographical and seasonal variation observed at the Gpdh locus in nature. In general, the results show that Gpdh can be considered a minor polygene affecting quantitative variation in the power output during flight and that genotype-by-environment interaction is an important component of that effect.