Den use can be crucial in buffering environmental conditions and especially to provide an insulated environment for raising altricial young. Through Sept-Dec 2016 we monitored temperature and humidity at 11 badger setts (burrow systems), using thermal probes inserted over 4-13 sett entrances to a depth of ca. 2 m, supplemented by continuous daily logging at one entrance per sett. Setts were cooler than exterior conditions Sept-Oct, and warmer than exterior conditions Nov-Dec. Setts cooled down when badgers left them to forage by night, and warmed up when badgers occupied them by day. Soil type and aspect also influenced sett temperature. Sett temperature did not affect the weight or body-condition of either adults or maturing cubs in autumn. However, cubs born into setts that were relatively warmer through the preceding autumn-winter were heavier in the following spring than contemporaries born in cooler setts (badgers exhibit delayed implantation), and so warmer setts might benefit early cub growth. We posit that sett quality may be important in providing badgers with a stable thermal refuge from variable weather conditions. More broadly, den use may buffer climate change effects for many fossorial carnivore species.
Although urbanization is a leading threat to wildlife conservation, some species have adapted to a synanthropic lifestyle. We used a population of raccoon dogs (Nyctereutes procyonoides) in the Akasaka Imperial Grounds in central Tokyo, Japan to investigate how latrine‐using carnivores can maintain their socio‐spatial organization with human disturbance. Between 2012 and 2014, we selected 4–11 latrines per year (from a max. of 18 latrines recorded in the area) using 1 camera per latrine. We focused on latrines that included varying levels of human disturbance. We analyzed the temporal patterns of 3,257 latrine visits, of which 878 included defecation events. Overall, latrine use (i.e., visits with and without defecation events) increased as winter approached, coinciding with dispersal, and showed a seasonal shift from diurnal to nocturnal use patterns as days got shorter. Generalized linear mixed model results confirmed that temporal visiting and defecation patterns were affected by human disturbance and shifted from diurnal to nocturnal, although overall frequency of visits and defecation events did not decrease at disturbed latrines and raccoon dogs continued to use disturbed latrine sites. Raccoon dogs likely perceive human disturbance as predation risk and avoided this by shifting their temporal, but not spatial, activity pattern to minimize disturbance. Minimizing the amount of disturbance around raccoon‐dog latrines at sensitive sites and times of day would allow them to co‐exist with people with the minimal compromise to their latrine‐centered socio‐spatial organization. © 2018 The Wildlife Society.
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