Shinsuke H. Sakamoto

Chromosomal Aberrations in Wild Mice Captured in Areas Differentially Contaminated by the Fukushima Dai-Ichi Nuclear Power Plant Accident

Following the Fukushima Dai-ichi Nuclear Power Plant accident, radiation effects on nonhuman biota in the contaminated areas have been a great concern. The induction of chromosomal aberrations in splenic lymphocytes of small Japanese field mice (Apodemus argenteus) and house mice (Mus musculus) inhabiting Fukushima Prefecture was investigated. In mice inhabiting the slightly contaminated area, the average frequency of dicentric chromosomes was similar to that seen in mice inhabiting a noncontaminated control area. In contrast, mice inhabiting the moderately and heavily contaminated areas showed a significant increase in the average frequencies of dicentric chromosomes. Total absorbed dose rate was estimated to be approximately 1 mGy d(-1) and 3 mGy d(-1) in the moderately and heavily contaminated areas, respectively. Chromosomal aberrations tended to roughly increase with dose rate. Although theoretically, the frequency of chromosomal aberrations was considered proportional to the absorbed dose, chromosomal aberrations in old mice (estimated median age 300 days) did not increase with radiation dose at the same rate as that observed in young mice (estimated median age 105 days).

Huddling facilitates expression of daily torpor in the large Japanese field mouse Apodemus speciosus

Small endotherms employ multiple adaptations to maintain energy balance in winter, including spontaneous daily torpor and simultaneous huddling. The relationships between these adaptations have been discussed in several previous studies, but it has not been well-established if huddling actually affects the expression of torpor in small endotherms. We examine whether and how huddling affects the expression of torpor in the large Japanese field mouse Apodemus speciosus, which is known to become torpid under artificial winter conditions. The mice were found to adjust expression of torpor in response to the number of cage mates. Torpor frequency and minimum torpid body temperature were both significantly elevated when the number of cage mates was increased, but there was no significant change in torpor bout length. Rewarming rate on arousal was lower when the number of cage mates was increased, suggesting reduction in endogenous rewarming due to exogenous passive rewarming. Food consumption per mouse decreased significantly with increasing number of cage mates. Thus, our study demonstrates that social thermoregulatory behaviors such as huddling can facilitate expression of spontaneous daily torpor in small rodents. These findings suggest that energy constraints, such as ambient temperature and food availability may not be the only modulating factors on the expression of daily torpor.

Magnitude of food overabundance affects expression of daily torpor

Many small mammal species use torpor as a strategy for reducing energy expenditure in winter. Some rodent hibernators also hoard food to provide reserves of energy, and individuals with large hoards express less torpor than those with smaller reserves. These facts imply that animals can recognize levels of food availability, but where food is very plentiful, it is unclear whether torpor expression is affected by temporal changes in the extent of food overabundance. Moreover, the relationship between daily torpor and excess food availability has not been clearly established. The large Japanese field mouse Apodemus speciosus caches food for use as a winter energy resource and exhibits daily torpor under artificial winter conditions. The present study examined whether individuals exposed to different magnitudes of overabundant food exhibited differences in expression of daily torpor, and secondly whether torpor expression varied in response to changes in the overall quantity of overabundant food. It was observed that while absolute quantities of overabundant food did not appear to affect daily torpor expression, the mice did respond to changes in food availability, even when food remained overabundant. This suggests that the mice respond to fluctuations in food availability, even where these changes do not place any constraint on energy budgets. Thus recognition of changing food availability cannot be a purely physiological response to shortage or plenty, and may contribute to predictions of future energy availability. The expression of torpor was inhibited in response to increasing food availability, and the mice used shallower torpor when food availability increased to superabundance. These findings suggest that daily torpor may be regulated not only physiologically in response to energy constraints but also psychologically, via recognition of food availability.

Seasonal Habitat Partitioning between Sympatric Terrestrial and Semi-Arboreal Japanese Wood Mice, Apodemus speciosus and A. argenteus in Spatially Heterogeneous Environment

Abstract. Habitat partitioning can maintain the coexistence of species with very similar ecological traits. We studied habitat partitioning between terrestrial and semi-arboreal congeneric rodents (Apodemus speciosus and A. argenteus) that often coexist despite asymmetry in their competitive abilities. To understand seasonal and habitat variation in their partitioning, we evaluated seasonal variation in food resources, habitat use, and habitat similarity between the species in a site comprising a mixture of grassland, pine forest, and mixed forest. Food resources were available on the ground in all vegetation types in spring and autumn, but were severe in summer. Apodemus speciosus was observed in all types of vegetation on the ground. In contrast, A. argenteus was observed on the ground and on trees in pine forest, especially areas where the understory is covered by dwarf bamboo. Habitat similarity tests revealed that habitat partitioning between two Apodemus species may vary seasonally, and the relationship depends on habitat structure. This study suggests that the mechanism of habitat partitioning between terrestrial and semi-arboreal rodents in temperate forest is more complex than previously recognized.

Flexibility of Digestive Tract Morphology in Response to Environmental Conditions in the Large Japanese Field Mouse Apodemus speciosus

Abstract. In some small mammals, digestive tract morphology is known to vary between and within individuals over time. Although changes in organs such as the stomach, small intestine, cecum, and large intestine vary among species, there is a trend toward increasing length and mass in individuals faced with increasing energy demands due to cold exposure or to reduced food quality. These morphological changes can also be induced by short day photoperiod, and could therefore serve as a winter adaptation. However, the extent to which these morphological responses to environmental cues are shared among mammals is not known. We examined the influence of cold temperature and short day photoperiod on the digestive tract morphology of Apodemus speciosus. The length and dry mass of all organs increased in response to cold temperature, and the dry mass of the small intestine was also increased by short day photoperiod. The small intestine is the principal site of nutrient absorption, and changes in its morphology may be an important aspect of winter adaptation. These results suggest that digestive tract morphology may alter flexibly as a means of coping with energy challenges.

Populations of follicles in F344/N rats during aging

Follicular populations were investigated in female F344/N rats to better understand the aging process of the rat ovary. Ovaries dissected at various ages (spanning 1-36 months old) were submitted for histological examination. The total number of primordial, growing (primary and secondary), tertiary, and atretic follicles as well as corpora lutea (CL) were counted in hematoxylin-eosin- and azocarmine-aniline-blue-stained ovarian sections. The number of healthy follicles including primordial, growing and tertiary follicles decreased rapidly between the first and third months and gradually thereafter. CL were found in 3-month-old rats, and their number remained unchanged until 18 months of age, at which point it decreased. The number of atretic follicles started to increase in rats older than 18 months, which corresponded to the cessation of estrous cyclicity. Several healthy follicles and CL were observed even in 36-month-old rats.

Nutritional significance of coprophagy in the rat-like hamster Tscherskia triton

Abstract Coprophagy is widespread among rodent species and has nutritional significance in providing microbial protein to animals via feces. However, studies of coprophagy in rodents have focused mainly on species that are cecal fermenters. In this study using rat-like hamsters (Tscherskia triton), which have a large forestomach and cecum, we investigated the contribution of coprophagy to protein nutrition in pregastric and cecal fermenters and also examined whether or not the cecum is involved in protein nutrition enhanced by coprophagy. With or without a forestomach, coprophagy may affect protein digestion in T. triton, and coprophagy cannot provide beneficial effects without a cecal contribution. Prevention of coprophagy increased the fecal concentration of crude protein in animals with an intact cecum. Therefore, we conclude that coprophagy is closely related to the cecum in terms of protein nutrition, even in the pregastric and cecal fermenter T. triton.

Individual differences in torpor expression in adult mice are related to relative birth mass

ABSTRACT Daily torpor is a physiological adaptation in small mammals and birds, characterised by drastic reductions in metabolism and body temperature. Energy-constraining conditions, such as cold and starvation, are known to cause the expression of daily torpor. However, the reason for high degrees of inter- and intra-individual variation in torpor expression (TE) in similar situations is not clear. As littermates of altricial animals are exposed to an uneven allocation of maternal resources from conception to weaning, we tested whether early nutritional experiences have long-term effects on TE in adults. We used full-sibling littermates of laboratory mice that as adults were starved overnight to induce torpor. We measured body mass from birth until adulthood as an indicator of nutritional status, and calculated the relative body mass (RBM) as an indicator of the difference in nutritional status within a litter. After maturation, we subjected mice to five repeated torpor induction trials involving 24 h of fasting and 5 days of recovery. Half of the female mice displayed great individual variation in TE whereas male mice rarely exhibited daily torpor. In females, RBM at birth influenced TE, irrespective of body mass in adulthood; thus, female mice born with low RBMs displayed high TE in adulthood. In conclusion, we provide evidence that TE in mice differs among littermates, and that this variation is linked closely to heterogeneous nutritional experiences during the fetal period. Summary: Laboratory mice show great variability in the expression of daily torpor, even among littermates; this variation may reflect the long-term influence of growth hysteresis prior to birth.

The effects of maternal presence on natal dispersal are seasonally flexible in an asocial rodent

In mammals, social tolerance among females, the philopatric sex, is formed through continued physical proximity between kin after offspring are weaned. However, the benefits of continued close association may be outweighed by costs such as local resource competition and risk of inbreeding. We hypothesized that for ‘philopatric females’, a flexible tendency towards either natal dispersal or philopatry is an important behavioral response to changes in social conditions. We examined this using an asocial rodent, Apodemus speciosus, which exhibits two discrete breeding seasons, one in spring and the second in autumn. Daughters and mothers were shown to recognize each other as kin at the time of weaning in both seasons. In spring, some mothers reproduced twice, and some first-litter daughters matured and reproduced in the same season. In autumn, however, only mothers reproduced, and there were no second litters. In spring, the proportion of natal dispersers was higher among weaned offspring whose mother remained present than those whose mother was absent, while in autumn, natal dispersal was more frequent when the mother was absent than when she remained. Sons dispersed earlier than their female littermates. Population density alone is insufficient to explain these patterns. We suggest that variable levels of reproductive competition between female kin result in seasonal differences in female natal dispersal. Breeding condition can be modulated by environmental factors, and the promotion of reproductive activity of females in spring may cause natal dispersal of daughters, while the inhibition of reproductive activity in autumn may permit philopatry.

Individual variation of daily torpor and body mass change during winter in the large Japanese field mouse (Apodemus speciosus)

Daily torpor is a strategy used by some overwintering small endotherms to aid in energy conservation. However, the pattern of torpor varies among individuals within species and populations, even under the same environmental conditions, with significant implications for survival rate and reproductive success. Body mass is one factor that may influence this variation, especially in some small mammals that accumulate fat stores prior to overwintering. However, to our knowledge there has been no previous study examining the detailed relationships between torpor expression and body mass change in small mammals that hoard food as an energy resource during winter. The large Japanese field mouse, Apodemus speciosus, whose winter survival strategy depends on food caches instead of fat stores, displays daily torpor under artificial winter conditions (short-day photoperiod and cold). The present study clarifies the characteristics and patterns of daily torpor and body mass change in this species in the laboratory. Although expression of daily torpor was facilitated progressively as in other species, the observed patterns of torpor expression and body mass change showed considerable individual variation. Moreover, there was no obvious correlation between body mass and daily torpor expression. Therefore, it is suggested that in A. speciosus body mass may not contribute to individual variation of daily torpor during winter. Daily torpor during winter may be adjusted by not only mechanisms common to other small mammals, but also species-specific factors relating to the external or internal reserves of energy in small mammals.