Product Code Database
The calcar, also known as the calcaneum, is the name given to a spur of cartilage arising from inner side of ankle and running along part of outer interfemoral membrane in ,The Handbook of British Mammals () as well as to a similar spur on the legs of some arthropods.
The calcar serves to help spread the interfemoral membrane, which is part of the wing membrane between the tail and the hind legs.
Calcar ( femorale) also refers to the dense, vertically oriented bone present in the posteromedial region of the femoral shaft inferior to the lesser trochanter.
The Kitti's hog-nosed bat is the only species of bat that has an extensive uropatagium while lacking a calcar.
In other species, the calcar is very small or absent, such as the Kitti's hog-nosed bat or species in the genera Rhinopoma, Diaemus, Mystacina, Syconycteris, Harpyionycteris, and Notopterus.
In the hairy-legged vampire bat, the calcar has a unique, finger-like form that extends approximately beyond the edge of the uropatagium. Some insectivore species of bats have an elaborate, pronounced calcar. This form of calcar is referred to as a "keeled calcar", and it is hypothesized that it may be useful in converting the uropatagium into a basket for catching insects.
For species in some genera (for example, Vampyrum and Phyllostomus), the calcar is entirely made of cartilage. In other genera (e.g. Saccopteryx, Pteronotus, Molossus), the calcar is calcified. Intermediate between these two forms is when one end of the calcar is calcified, while the other is cartilaginous (e.g. Noctilio and Trachops). All , however, lack any calcification in their calcar.
In , movement of the calcar is controlled by several muscles, including the gastrocnemius muscle, m. calcaneocutaneous, and m. depressor ossis styliformis. M. depressor ossis styliformis abducts the calcar towards the foot, which spreads the uropatagium. M. calcaneocutaneous works in opposition to m. depressor ossis styliformis, helping to stabilize the calcar. The gastrocnemius muscle aids in flexion of the foot, working in conjunction with m. depressor ossis styliformis to spread the uropatagium.
Unlike microbats, lack the m. calcaneocutaneous muscle for calcar control; megabats do share the other two muscles for calcar control, however.
Some authors have treated the calcar as a synapomorphy, or a unique trait shared by all bats, derived from a common ancestor. However, major differences in calcar structure between the two major clades of bat (formerly Megachiroptera and Microchiroptera, now Yinpterochiroptera and Yangochiroptera) have led other authors to challenge this designation. In a paper published in 1998, Schutt and Simmons advocated for different names for this structure for the two suborders, with the Yangochiroptera (microbats) retaining "calcar" and the Yinpterochiroptera (megabats) using "uropatagial spur." The calcar-like structure is not a synapomorphy, they argued, but rather a similar structure that evolved independently in each suborder. In 2000, Adams and Thibault published a book on bat ontogeny that supported this assertion, stating that various evidence "supports the hypothesis of independent origins for the microchiropteran calcar and the megachiropteran ‘uropatagial spur.’ Hence, the calcar, as currently understood, does not meet the assumptions of biological homology." Instead, the calcar of the microbats and the uropatagial spur of the megabats are an example of convergent evolution.
|
|
