Abstract

Full, R.J. 1991. Concepts of efficiency and economy in land locomotion. In Efficiency and Economy in Animal Physiology. (ed. R.W. Blake). Cambridge University Press, New York. pp. 97-131.

Introduction

Is the concept of efficiency in terrestrial locomotion useful when applied at the level of the whole animal? Can measures of efficiency aid in revealing the consequences of variation in morphology and physiology that relate to locomotion on land? Can these measures quantify the effect of variation in leg number (two in humans to over 600 in a millipede), leg length and orientation, stepping patterns (metachronal waves gaits, trotting versus hopping), muscle type, musculo-skeletal arrangement (exo- versus endoskeletons), body shape (long in centipedes and millipedes versus round in some crabs), and locomotor style (forwards versus sideways travel in crabs)? Can measures of efficiency provide useful information about the mechanistic, ecological and evolutionary bases of how animals of diverse body form move? Most lay people, as well as researchers, would probably answer yes to each question. Many functional morphologists, physiologists and biomechanists believe they can recognize efficient terrestrial locomotion. Unfortunately, when out hypotheses are tested, the results are often ambiguous. Whether or not our hypotheses are based on sound principles of physics or physiology seems to make little difference. Awkward marathon runners win gold medals; athletes ranked as inefficient expend less energy than more graceful runners (Cavagna and Kram, 1985); some mammals with large limbs use no more energy than those that evolved more 'efficient' tapered limbs (Taylor et al., 1974); and animals, such as a centipede, that 'waste' motion as they laterally undulate actually require somewhat less energy to travel a given distance than other animals of the same mass (Full, 1989).