Extreme resistance to desiccation and microclimate-related differences in cold-hardiness of gall wasps (Hymenoptera: Cynipidae) overwintering on roses in southern Canada.

Four species of cynipid wasp of the genus Diplolepis that induce galls on roses (Rosa species) in southern Canada and two species of inquiline cynipid associated with these galls were studied for their cold-hardiness and resistance to water loss and for possible links between these adaptations. Mid-winter-acclimated supranivean D. spinosa and Periclistus pirata had lower supercooling points (-38 to -40 degrees C) and higher hemolymph osmolalities (1760-1849 mosmol kg(-1)) than subnivean D. polita, D. gracilis, D. radicum and Periclistus sp. (-31 to -32 degrees C and 977-1464 mosmol kg(-1), respectively). During a simulated transition from summer/fall to mid-winter conditions, the glycerol concentration of D. spinosa more than tripled, reaching a final value of 0.98 moll(-1), while its supercooling point decreased by 13 degrees C from the initial value of -27.4 degrees C; however, glycerol concentration and supercooling point did not change for the subnivean species. The permeability of the cuticle of all species was extremely low (0.33-1.00 microg h(-1) cm(-2) mmHg(-1) at 5 degrees C and 0 % relative humidity; 1 mmHg=0.133 kPa), even compared with that of desert species; however, there was no difference in cuticular permeability between supranivean and subnivean prepupae. Transition temperatures ranged between 32.3 and 34.6 degrees C; below 30 degrees C, temperature had little effect on rates of water loss for all species (Q(10)=1.13-1.87).