Physiology of diapause in the adult bark beetle, Ips acuminatus Gyll., studied in relation to cold hardiness

The ovarioles of the bark beetle, Ips acuminatus are telotrophic. Ovarian development is suppressed at an immature stage with primary germ cells present in the germaria. Lower oxygen consumption is found in beetles during autumn and early winter, and a substantial rise in mean respiration rates occurs in the beginning of January paralleled by a resumption of pre-vitellogenesis in all females maintained either at 3°C or out of doors after return to 21°C for 2 weeks. It is concluded that I. acuminatus enters faculative diapause soon after enclosure to the adult, and that diapause is terminated by mid-winter in beetles kept for 18 weeks at either 3°C or out of doors. The specimens remain thereafter in reproductive quiescence until ovarian development can proceed.Photic cues are neither involved in the elevation of mean respiration rates, nor needed to abolish the inhibition of ovarian maturation in beetles kept at 3°C or in those returned to 21°C. However, follicle formation in ovarioles is only seen in positive phototactic females reared during “long-day” conditions, suggesting a photoperiodic regulation of the later stages of vitellogenesis.Detectable amounts of ethylene glycol are found at the beginning of November in freezing-susceptible I. acuminatus hibernating in its galleries underneath bark of Scots pine (Pinus silvestris) at 3°C. The gradual catabolism of the cryoprotective solute at 3°C through December occurred at a time when individuals achieved the competence to resume ovarian maturation during 2 weeks at 21°C, but prior to the substantial rise in their mean respiration rates. However, resumption of ovarian development in spring had no effect on the capability of outdoor beetles to enhance their supercooling capacity when subjected to sub-zero temperatures. Since the ability to respond to temperature changes occurred in post-diapause I. acuminatus as well, the maintenance of prolonged cold hardiness in specimens could not be related to diapause itself. Apparently, the ability of beetles to resynthesize ethylene glycol when a detectable level is present in the organism remains unaltered during overwintering.