A tendon‐locking mechanism in two climbing rodents, Muscardinus avellanarius and Micromys minutus (Mammalia, Rodentia)

Having compared the microanatomy of the toes of a terrestrial to two climbing species, adaptations were found in the flexor tendons and in the integument. In contrast to Crocidura russula , both Muscardinus avellanarius and Micromys minutus have a tendon‐locking mechanism (TLM) that is engaged when the middle phalanx is bent. A ventral thickening of the flexor tendon is situated deep to a thickened portion of the ventral tendon sheath. When twigs or stalks are grasped, the TLM allows less muscular energy to be expended. In C. russula glands are restricted to the terminal pads, but in the climbing species they occur in the sole of the toes as well. In the reed‐living M. minutus knob‐shaped integumental thickenings, together with the digital pads, stabilize the grip. In contrast the arboreal M. avellanarius often climbs thick branches and shows adaptations for pressing the sole of the feet against the surface. Thereby the tendon attached to the plantar integument of the toes transfers the muscle force directly to the bark. Unlike the other digits on the forefeet of both climbing species, no TLM is present in the anterior digit. In M. minutus this short digit is twisted towards the palm and, with the carpal pads, provides an abutment against the grasping fingers. In M. avellanarius the anterior digit has very thin tendons and is that much reduced in length that it is completely integrated into the digital pad where it acts, at best, as a lateral support of the pad. © 1996 Wiley‐Liss, Inc.