Continuous growth through winter correlates with increased resting metabolic rate but does not affect daily energy budgets due to torpor use

Small mammals that are specialists in homeothermic thermoregulation reduce their self-maintenance costs of normothermy to survive the winter.By contrast,heterothermic ones that are considered generalists in thermoregulation can lower energy expenditure by entering torpor.It is well known that different species vary the use of their strategies to cope with harsh winters in tem-perate zones;however,ittle is still known about the intraspecific variation within populations and the associated external and internal factors.We hypothesized that yellow-necked mice Apodemus flavicollis decrease their resting metabolic rate(RMR)from autumn to winter,and then increase it during spring.However,since the alternative for seasonal reduction of RMR could be the develop-ment of heterothermy,we also considered the use of this strategy.We measured body mass(mp),RMR,and body temperature(Tb)of mice during 2 consecutive years.In the 1st year,mice decreased whole animal RMR in winter,but did not do so in the 2nd year.All mice entered torpor during the 2nd winter,whereas only a few did so during the first one.Mice showed a continuous in-crease of mb,which was steepest during the 2nd year.The relationship between RMR and mb var-ied among seasons and years most likely due to different mouse development stages.The mb gain at the individual level was correlated positively with RMR and heterothermy.This indicates that high metabolism in winter supports the growth of smaller animals,which use torpor as a compen-satory mechanism.Isotope composition of mice hair suggests that in the 1st year they fed mainly on seeds,while in the 2nd,they likely consumed significant amounts of less digestible herbs.The study suggests that the use of specialist or generalist thermoregulatory strategies can differ with environmental variation and associated differences in developmental processes.