Synchronization of circannual cycles: a cold spring delays the cycles of thirteen-lined ground squirrels

Summary Ground squirrels, show circannual cycles with periods normally less than a year when kept under laboratory conditions. The way in which environmental factors synchronize these cycles with the geophysical year under natural conditions is not known. We tested the possibility that cold temperatures can cause long-term phase delays in circannual cycles of thirteen-lined ground squirrels.Two groups of animals were kept in the cold (4 °C) for either 8.5 or 13 months, after which they were returned to the warm (21 °C) and kept there until they had completed at least one additional cycle. A third group was kept in the warm for the entire experiment. Most of the males in the cold room groups became arrested in the spring phase of their cycles while they were in cold. When returned to the warm, these males resumed cycling. When animals showed prolonged spring phases, their cycles were phase-delayed and continued to reflect this delay even after they were returned to the warm. Both body weight cycles and molt cycles were delayed. In contrast to the males in the cold room, none of the females in the cold room groups and none of the warm room animals of either sex showed this response.Our results demonstrate that cold temperatures can phase-delay both body weight and molt cycles and that the spring phase is a critical stage in this effect. We suggest that spring temperatures are largely responsible for the seasonal synchronization of circannual cycles in ground squirrels and are, therefore, a possible Zeitgeber for these cycles.     

Circannual cycles in golden-mantled ground squirrels: phase shift produced by low temperatures

Summary Golden-mantled ground squirrels,Spermophilus lateralis, were kept in a warm room (21 °C) until they had begun to lose weight following attaining a peak of body weight in the autumn. An experimental group was then transferred to a cold room (–3 °C) and kept there for about 9 months before being returned to the warm room. A control group was kept in the warm room throughout. The peaks in body weight of animals that had been exposed to the cold occurred 4.5 months later than those of the control animals. This difference was maintained when the animals were studied for a further year. Reproductive condition in the experimental animals, after they had been returned to the warm room, also occurred several months later than that in control animals. An extended sojourn in the cold therefore results in a phase shift in circannual cycles of this species.I thank Kirsteen Lang for much help and Linda Jones and others at the Environmental Sciences Centre, Kananaskis, for their cooperation. Janice Farintosh, Yasmin Shah and John Ting assisted with the experiments. The work was supported by the Natural Sciences and Engineering Research Council of Canada.     

Circannual cycles in golden-mantled ground squirrels: fall and spring cold pulses

Summary Endogenous circannual rhythms of male golden-mantled ground squirrels (Spermophilus lateralis) exposed to low ambient temperature (6 °C) at various times were compared to the rhythms of a control group kept in a warm room (21 °C) throughout. A 20-week pulse of cold in the spring delayed the subsequent peak body weight and molt offset. However, in the second year after the spring cold pulse, a delay in the rhythm was evident only using peak weight as a phase marker. A 20-week cold pulse in the fall resulted in an earlier peak body weight and earlier onset of pigmented scrotum and descended testes, but there was no evidence from subsequent years that rhythms had been phase advanced. A third of the animals kept continuously at 6 °C remained with pigmented scrotum, descended testes and low body weight for more than a year. Circannual periodicities of animals that continued to display rhythms in the cold room were not significantly longer than those of controls in the warm room. The results suggest that low temperature in the fall can alter the expression of circannual rhythms without much affecting their phasing, while low temperature in the spring produces phase delays which last longer but have not been proved to be persistent.Abbreviation PRC phase response curve     

Temperature-independence of circannual variations in circadian rhythms of golden-mantled ground squirrels

In golden-mantled ground squirrels, phase angles of entrainment of circadian locomotor activity to a fixed light-dark cycle differ markedly between subjective summer and winter. A change in ambient temperature affects entrainment only during subjective winter when it also produces pronounced effects on body temperature (Tb). It was previously proposed that variations in Tb are causally related to the circannual rhythm in circadian entrainment. To test this hypothesis, wheel-running activity and Tb were monitored for 12 to 14 months in castrated male ground squirrels housed in a 14:10 LD photocycle at 21 degrees C. Animals were treated with testosterone implants that eliminated hibernation and prevented the marked winter decline in Tb; these squirrels manifested circannual changes in circadian entrainment indistinguishable from those of untreated animals. Both groups exhibited pronounced changes in phase angle and alpha of circadian wheel-running and Tb rhythms. Seasonal variation in Tb is not necessary for circannual changes in circadian organization of golden-mantled ground squirrels.     

Extensive use of torpor in 13-lined ground squirrels in the fall prior to cold exposure

Mammalian hibernation is characterized by profound reductions in body temperature (T _b) and metabolic, heart and respiratory rates. These reductions are characteristic of torpor, which is temporally confined to winter. Hibernators including ground squirrels are heterothermic in winter, cycling between multiday periods of torpor with low T _b and brief periods of rewarming. In contrast, ground squirrels remain homeothermic during summer, like non-hibernating mammals. The transition between the homeothermic and heterothermic phases of the circannual rhythm of hibernation is often overlooked in hibernation studies. Here, we examined the use of torpor throughout the fall transition in laboratory-housed 13-lined ground squirrels by recording core body temperature with an implanted data logger. As is typical of laboratory-based hibernation studies, animals were kept in standard housing prior to being moved into a cold, dark room to simulate natural hibernation conditions. Significantly, the vast majority of both male and female ground squirrels expressed torpor in the fall while still housed conventionally and prior to cold exposure. The expression of torpor was not predicted by body weight or age, rather it appears to be preprogrammed in a time-dependent manner that is independent of, yet enhanced by, environmental cues. The timing and duration of these torpor bouts occurring prior to cold exposure were also remarkably sporadic. Thus, it is not possible to know with certainty which animals are torpor-naive before cold exposure in the absence of continuous measurement of body temperature. We conclude that fall animals encompass variable points in the transition between summer and winter phases of the circannual cycle of hibernation, thereby confounding studies in which they are used as non-hibernating controls. Conversely, these fall transition animals offer unique opportunities to define the molecular changes that accompany and enable hibernation.     

Seasonal change in irradiance: a zeitgeber for circannual rhythms in ground squirrels.

1. Zeitgebers for circannual rhythms have been elusive. Demonstration that an external factor is a zeitgeber requires proof of a phase-shift that endures for several years. 2. The California ground squirrel (Spermophilus beecheyi) is an ideal subject. Many features of behavior have circannual rhythms of which change in mass is the easiest to measure. The squirrels thrive in captivity for up to 10 years. The squirrels were kept in individual cages in an air conditioned room, fed lab chow ad lib, and weighed twice a month. They were exposed to a 6-month phase shift of (a) length of day (b) seasonal change in temperature, (c) both, (d) seasonal cycle of irradiance. 3. The squirrels maintained circannual rhythms for up to 9 years. Entrainment was evident only by squirrels exposed to seasonal change in irradiance.     

Effect of winter high temperatures on reproduction and circannual rhythms in hibernating ground squirrels

We tested whether prevention of hibernation in ground squirrels by midwinter exposure to high ambient temperatures influenced timing of the spring phase of reproductive maturation and the phase and period of subsequent circannual rhythms of reproduction and body mass. Exposing hibernating adult male Spermophilus lateralis to 30 degrees C for 6 weeks beginning December 4 advanced the timing of testicular recrudescence by 4-5 weeks, compared to controls left at 4 degrees C. Males exposed to 30 degrees C for 6 weeks beginning at the average time of spontaneous end of hibernation (January 15) reached reproductive maturation at a time intermediate to those of controls and of the December 4 experimental group. However, neither the date of the subsequent fall's body mass peak, the date of the next year's reproductive maturation, nor the periods of circannual rhythms of body mass and reproduction differed among groups. Premature interruption of hibernation appears to allow early expression of reproduction, but does not affect the underlying timing mechanism.     

Annual cycles of body weight in the Namie's frosted bat, Vespertilio superans superans

In order to elucidate the circannual cycles of fat deposition and depletion in hibernating bats, annual rhythm of body weight was examined in Vespertilio superans superans under a variety of environmental conditions. Under near natural conditions, adult females put on weight rapidly from October to November. The laboratory born subadult females kept in constant darkness at warm temperature gained weight at the same time as the adults. The length of weight cycle was about 10 months in adult females kept in 14 L : 10 D at about 24°C. These results suggest that cycles of fat deposition and loss are controlled by a modifiable endogenous circannual rhythm. Body weight rhythm persisted normally under warmer environmental conditions preventing the bats from hibernation. It is considered that the circannual cycles of fat gain and loss are relatively stable and not dependent on the hibernation cycle. Prolonged gestation period and delayed beginning of lactation by cold environment in summer did not affect the body weight rhythm. Temperature may be a more important environmental stimulus (or Zeitgeber) for the circannual rhythm than light and its effects may vary with phases.     

Circannual rhythms of ground squirrels: a test of the frequency demultiplication hypothesis

The frequency demultiplication hypothesis (FDH) posits that circannual rhythms are generated from circadian cycles by frequency transformation to the lower-frequency rhythm. To test the FDH, we determined the periods of the circannual body mass and estrous cycles of golden-mantled ground squirrels with circadian locomotor activity rhythms entrained to 23-, 24-, or 25-hr days (T-cycles). Circannual period length did not differ among squirrels entrained to the different T-cycles; intergroup ranges were 298-314 days and 303-312 days, respectively, for body mass and estrus. These results are not consistent with the FDH and suggest instead that separate mechanisms generate circadian and circannual rhythms. In ground squirrels the circannual system influences circadian organization, but a reciprocal influence of circadian on circannual rhythms has yet to be demonstrated.     

Further demonstration of the ambient temperature dependence of the annual biological cycles in the edible dormouse,Glis glis

Summary In the male edible dormouse, it has been proposed that the annual temperature cycle is the major external factor triggering annual biological rhythms in this hibernating species. The present study was designed to explore (i) the effects of suppression of the annual thermoperiodic cycle under natural photoperiodic conditions, and (ii) the effects of acute exposure to a warm environment on basal plasma T4 levels observed during hibernation. The results of the first experiment demonstrate an absence of circannual cycles of hibernation, body weight, and endocrine thyroid and gonadal functions in the absence of annual fluctuations of temperature (constant warm environment at 24°C) despite the maintenance of a normal photoperiodic cycle. On the other hand, acute exposure to 24°C during the late stage of hibernation stimulated thyroid function as expressed by a consistent transitory rise in plasma T4 concentrations, which was maximal within 7 days and restored to basal levels after 14 days. These findings are in close agreement with the concept that in the edible dormouse, the annual thyroid cycle is synchronized with the annual temperature cycle. Moreover, the present study, combined with prior data indicating that the thyroid cycle induces the testis cycle, suggests that the ambient temperature cycle may be intricately involved in the control of neuroendocrine cycles in dormice, although the mechanism is still unknown.     

Spontaneous and induced summer hibernation in 13-lined ground squirrels

Among several mammalian hibernators, an endogenous circannual sequence of physiological events is believed to mediate the timing of torpor. Dawe and Spurrier (3) reported that a bloodborne substance (hibernation induction trigger) is important in initiating the torpor phase of those events in the 13-lined ground squirrel. We have reported the induction of summer hibernation among 13-lined ground squirrels using dialysates of serum from hibernating golden hamsters (a nonseasonal hibernator). While those animals receiving saline injections hibernated in 36.3 ± 2.9 days, an earlier induction (22 ± 8.8 days) occurred among those receiving the hibernation serum dialysate (P = 0.05). It was also observed that naive animals departed from a strict circannual rhythm and displayed a high incidence of hibernation, although not significant when compared to the experimental saline controls. The spontaneity of torpor in summer among the naive sample may in part be a characteristic of wild-caught animals employed in the bioassay. Nevertheless, the induction of hibernation among those animals receiving the hibernation serum preparations is supportive of the studies of Dawe and Spurrier (2, 3). That a “trigger” material apparently is present in the hamster, a phylogenetically distinct nonseasonal hibernator, suggests that a characteristic of rodent hibernators is the presence of a material which is associated with the initiation of torpor.     

The "hibernation induction trigger": specificity and validity of bioassay using the 13-lined ground squirrel

Even though the existence of the blood-borne "hibernation induction trigger" has been reported in the 13-lined ground squirrel, transfusion of plasma from hibernating rodents with other hibernating species as the recipients failed to induce the occurrence of summer hibernation. In order to verify whether the response to the "trigger" substance is species specific, the present study was carried out to compare the effect of plasma from hibernating Richardson's ground squirrels on the incidence of summer hibernation in both juvenile Richardson's and adult 13-lined ground squirrels. In two series of experiments, 13-lined ground squirrels entered hibernation quite readily independent of the treatment. The rate of occurrence of hibernation ranged from 78% after sham injection to 86% after warm saline, fresh summer active plasma, and fresh hibernating plasma, respectively. There were no differences in the number of hibernation bouts and the number of days in hibernation after each treatment. In contrast, none of the juvenile Richardson's ground squirrels entered hibernation after any of the treatments up to the end of the 8-week observation period. These results not only argue against the existence of blood-borne "trigger" substance, at least in the Richardson's ground squirrel, but also caution against the use of the 13-lined ground squirrel as a standard test animal for the bioassay of the "trigger" substance.     

Summer hibernation induced in ground squirrels (Citellus tridecemlineatus) by urine or plasma from hibernating bats (Myotis lucifugus or Eptesicus fuscus)

Summer hibernation induced in ground squirrels (Citellus tridecemlineatus) by urine or plasma from hibernating bats (Myotis lucifugus or Eptesicus fuscus). Summer hibernation in the thirteen-lined ground squirrel can be induced by intravenous injection of urine or blood plasma previously isolated from winter hibernating little brown bats (M. lucifugus) or big brown bats (E. fuscus). Urine- and plasma-injected ground squirrels kept at 8 °C hibernated earlier, longer, and deeper (as indicated by core temperature and respiratory rate measurements) than control ground squirrels injected with saline. This successful cross-order induction of hibernation demonstrates that the hibernation-inducing trigger (HIT) may be present in nonrodent mammals.     

Intraspecific differences in the pattern of hibernation in the ground squirrelSpermophilus beldingi

Summary Intraspecific differences in the patterns of heterothermy were found in captive Belding's ground squirrels that hibernated undisturbed at ambient temperatures of 5°C, 10°C, and 15°C. The timing of all entrances into and arousals from hibernation was determined from records of copper-constantan thermocouples that were mounted on the floor of each animal's nest box and connected to continuously recording potentiometers. In the absence of food, large adult males terminated hibernation spontaneously in the spring. In contrast, females and small non-breeding males (yearlings) did not stop hibernating but instead they shortened their bouts of torpor in the spring so that they aroused every three or four days. This interval of frequent arousals, termed the emergence period, lastel until the squirrels became emaciated, and it was only in the 2 or 3 weeks preceeding death (starvation period) that arousal frequency once again decreased towards midwinter values (Fig. 3). These animals terminated hibernation when fed during the emergence or starvation periods, but they were able to resume torpor if that feeding lasted less than a week.Termination of hibernation and reproductive development in males were related to the size of the animals, not their age. Males two years and older which did not deposit normal quantities of fat were like yearlings in that they had open-ended hibernation seasons and showed little testicular enlargement. Likewise, juvenile males that grew to near adult size in their first summer spontaneously terminated hibernation and had well developed testes like most older individuals. In addition, both the frequency and duration of arousals in the emergence period were related, in part, to the extent of the animals' fat reserves, such that large squirrels spent more time at high body temperatures than small individuals (Figs. 5, 6). This trend was most pronounced at high ambient temperatures.These intraspecific differences in hibernation physiology are consistent with the sex and agerelated differences in the timing of emergence above ground in nature. The increase in the time spent euthermic in the spring isinterpreted as an adaptation for increasing the opportunities for environmental assessment. The intraspecific differences in the extent of this euthermia appear to be associated with differences in the balance between the energy supplies available to an animal and its need to accelerate the use of that energy (i.e., arouse) in order to achieve an early and accurately-time emergence from the hibernaculum.     

Suprachiasmatic nucleus and photic entrainment of circannual rhythms in ground squirrels.

The efficacy of photoperiod as a zeitgeber for entrainment of circannual body weight and estrous rhythms was tested in female golden-mantled ground squirrels maintained for 3 or more years in either a simulated natural photoperiod (SNP) or a fixed LD 14:10 photoperiod (FP). The role of the retinohypothalamic tract--suprachiasmatic nucleus (RHT-SCN) projection in photic entrainment was assessed in animals that sustained destruction of the SCN (SCNX). Circannual rhythms were lengthened by the SNP as compared to the FP. Mean periods (tau's) for neurologically intact animals in the third year of testing were 49.6 +/- 0.3 weeks and 43.1 +/- 1.2 weeks (p less than 0.001) for the SNP and FP groups, respectively; furthermore, 56% and 7% of animals in these groups had tau's not significantly different from 365 days (p less than 0.005), and within-group variability was lower for SNP than for FP squirrels (p less than 0.01). SCNX squirrels differed from animals with the SCN intact (SCNC), as evidenced by higher within-group variability (p less than 0.001); only 29% of SCNX squirrels had tau's not different from 365 days (p less than 0.03 compared to the SCNC group). The coupling between estrous and body weight rhythms that was evident in SCN-intact SNP and FP squirrels was disrupted in SCNX animals. The RHT-SCN pathway is implicated in entrainment and in maintenance of normal phase relations among the several circannual rhythms. In a second experiment, female squirrels were maintained for 2.5 years in an accelerated SNP that compressed two normal annual photocycles into each calendar year. Of 12 squirrels, 3 had tau's that did not differ significantly from 6 months; 6 had tau's equivalent to 12 months; and 3 had tau's significantly different from both 6 months and 12 months. The data suggest that photoperiod is a major zeitgeber for entrainment of golden-mantled ground squirrels circannual rhythms.     

Circannual rhythms of ground squirrels: role of the hypothalamic paraventricular nucleus

Female golden-mantled ground squirrels, maintained in an LD 14:10 photoperiod at 23 degrees C, sustained lesions of the paraventricular nucleus (PVN) or sham operations. Body weight and reproductive status were recorded weekly pre- and postoperatively. Bilateral lesions of the PVN did not eliminate, phase-shift, or otherwise disrupt the circannual rhythms of body mass or reproduction. Absolute levels of body weight were unaffected by PVN ablation. The PVN is not an essential component of the oscillatory system that generates circannual cycles in ground squirrels.     

季节、环境温度与黄鼠冬眠的关系

观察了达乌尔黄鼠在实验室内冬眠的一般情况。常温黄鼠的体温有着规律性的年周期,与环境温度的年周期变动不完全呈依从关系。出眠初期(4月下旬),动物体温高而稳定。4月至6月常温黄鼠的平均体温(皮温)为35.6℃,波动菹围32—37.5℃。随着体重达到顶峰,体温逐渐降低。8月份部分黄鼠出现低于32℃的低常体温,表明部分黄鼠自8月盛夏开始冬眠。但就整个种群而言,北京地区实验室内黄鼠冬眠季自9月下半月开始。3月底止,共6.5个月。秋季室温下降,动物入眠趋势增长。浅低体温(31.9—15℃)的比数逐渐升高。9月至12月,低体温(低于31.9℃)的百分比从47％增至84.8％,反映了动物从浅冬眠向深冬眠过渡。1月至2月份,低体温占85％以上,深低体温(低于15℃)占绝对优势。标志着动物种群的深眠月份。秋季动物从常温期向冬眠期转化的界线是不清的,而春季从冬眠期向常温相转化的界限却比较明显。     

Auditory brainstem responses in ground squirrels arousing from hibernation

Summary Auditory brainstem responses (ABRs) were recorded in ground squirrels (Citellus lateralis) arousing from hibernation. Squirrels implanted with recording screws to record ABRs, and a thermistor to record brain temperature, were placed in a cold room at 9 °C on a 2L:22D light-dark cycle. Hibernating animals were moved from the cold room and ABRs recorded during arousal. The responses showed a gradual development of all brainstem peaks.At low temperatures there were very long latencies to the peaks. The amplitudes of the peaks increased (with fluctuations) as brain temperature increased. The data indicate that neural generators on the brainstem auditory pathway were all activated early in arousal.These results do not support the hypothesis that successive peaks appear and grow in amplitude only after previous peaks are fully developed.     

Summer hibernation of infant (six week old) 13-lined ground squirrels, Citellus tridecemlineatus

In an endeavor to more clearly define the physiological action of hibernation trigger (previously identified by the authors) an experiment was devised using infant ground squirrels. In one case, pregnant ground squirrel mothers were transfused intravenously with cold dialysate of serum of hibernating woodchuck, and in another case, infant (1 week to 3 week) squirrels were transfused intraperitoneally with the same material. When isolated and placed in a cold room (15 °C) at 6 weeks post partum, both the infant born of the transfused mothers, as well as the infant which has been transfused directly, hibernated in the summer. This was in contrast to controls of several kind, i.e., animals not injected, or receiving active or arousing woodchuck serum or heat-treated hibernation serum. Some details for a theory, which had been advanced in a previous article (4), were essentially substantiated by this experiment. It is our belief that this represents the first time mammalian hibernation has been observed in infant hibernators.     

On the growth of incisors in ground squirrels (Spermophilus) during hibernation

The growth of incisors was studied in two Spermophilus parryii and two S. undulatus ground squirrels with DS-1922L temperature data loggers implanted in the peritoneal cavity, which were kept under laboratory conditions. Daily increments on the incisors surface were similar to those in other species of ground squirrels, but they were less distinct and regular than in wild-living conspecific individuals from the same region. Two S. parryii and one S. undulatus ground squirrels entered hibernation and successfully overwintered. Despite some anomalies in their incisors, changes in body temperature during hibernation (recorded by the data loggers) had an effect on the pattern of their growth, resulting in the formation of a “hibernation zone” on the incisor surface. The number of narrow increments within this zone roughly corresponded to the number of alternating periods of torpor and euthermia during hibernation. This could be regarded as evidence that the incisors of the animals studied continued growing throughout hibernation, including the period of deep hibernation, with the rhythm of their growth coinciding with the rhythm of changes in body temperature. The effect of spontaneous trauma of an upper incisor on the growth of other incisors is described.