• Energetic costs of locomotion in bears: is plantigrade locomotion energetically economical?

      Pagano, Anthony M.; Carnahan, Anthony M.; Robbins, Charles T.; Owen, Megan A.; Batson, Tammy; Wagner, Nate; Cutting, Amy; Nicassio-Hiskey, Nicole; Hash, Amy; Williams, Terrie M. (2018)
      Ursids are the largest mammals to retain a plantigrade posture. This primitive posture has been proposed to result in reduced locomotor speed and economy relative to digitigrade and unguligrade species, particularly at high speeds....
    • Validation of mercury tip-switch and accelerometer activity sensors for identifying resting and active behavior in bears

      Ware, Jasmine V.; Rode, Karyn D.; Pagano, Anthony M.; Bromaghin, Jeffrey F.; Robbins, Charles T.; Erlenbach, Joy; Jensen, Shannon; Cutting, Amy; Nicassio-Hiskey, Nicole; Hash, Amy; et al. (2015)
      In this study, we examined the performance of a mercury tip-switch and a tri-axial accelerometer housed in collars to determine whether sensor data can be accurately classified as resting and active behaviors and whether data are comparable for the 2 sensor types. Five captive bears (3 polar [Ursus maritimus] and 2 brown [U. arctos horribilis]) were fitted with a collar specially designed to internally house the sensors. The bears’ behaviors were recorded, classified, and then compared with sensor readings…