Summary
Infection of North American bats with the keratin-digesting fungus Geomyces destructans often result in holes and ruptures of wing membranes, yet it is unknown if flight performance and metabolism of bats are altered by such injuries. I conducted flight experiments in a circular flight arena in Myotis albescens and M. nigricans where I observed individuals with intact or ruptured trailing edge of one of the plagiopatagial membranes. In both species, individuals with damaged wings were lighter, had a higher aspect ratio (squared wing span divided by wing area) and an increased wing loading (weight divided by wing area) than conspecifics with intact wings. Bats with an asymmetric reduction of the wing area flew at similar speeds but performed less flight manoeuvres than conspecifics with intact wings. Individuals with damaged wings showed lower metabolic rates during flight than conspecifics with intact wings, even when controlling for body mass differences; the difference in mass-specific metabolic rates may be attributable to the lower number of flight manoeuvres (U-turns) by bats with damaged wings compared to conspecifics with intact wings. Possibly, bats compensated an asymmetric reduction in wing area by lowering their body mass and avoiding flight manoeuvres. In conclusion, bats may not suffer directly from moderate wing damages by experiencing increased metabolic rates but indirectly by a reduced manoeuvrability and foraging success. This could impede a bat's ability to gain sufficient body mass before hibernation.
