SUMMARY
Traveling on arboreal substrates is common among most small mammals living anywhere vegetation grows. Because arboreal supports vary considerably in surface texture, animals must be able to adjust their locomotor biomechanics to remain stable on such supports. I examined how gray short-tailed opossums(Monodelphis domestica), which are generalized marsupials living on or near the ground, adjust to travel on rough and smooth 2 cm-diameter arboreal trackways. Limb contact position was determined viahigh-speed videography, and substrate reaction force was measured by an instrumented section of each branch trackway. Normal and shear forces were calculated from substrate reaction force and limb contact position around the branch trackways. Normal force is greater in forelimbs, probably because of the forelimb's greater weight support role. Shear force was identical between limb pairs, most likely because of interactions between vertical force, limb placement, mediolateral force, and torque. The opossums adjusted to the smooth trackway mainly by reducing speed, changing footfall patterns and increasing normal force. I predict that arboreal specialists will show less change in performance between rough and smooth arboreal trackways because of their greater ability to grasp or maintain contact with arboreal substrates.
FOOTNOTES
I am grateful to Aukje de Vrijer for helpful discussion about calculating shear forces, and anonymous reviews for their helpful comments. I thank Chris Davis, Erin Dixon, Timothy Gauntner, Becky Riffle and Abby Tropiano for their hard work setting up and running experiments, digitizing videos and processing data. Luke Simonis provided the preliminary data on center of pressure. Darcy Prince provided helpful comments on the manuscript, Steve Slane provided statistical advice, John Bertram advised extensively on force transducer design and construction and Steven Torontali milled the force transducer components. Beth Judy provided care for the opossums. Funding was provided by Cleveland State University startup funds, Provost's office and College of Science.
