The ear of the chameleon:Chamaeleo höhnelii andChamaeleo jacksoni

This report documents the development of the autopodium of the common chameleon (Chamaeleo chamaeleo) using light microscopy, scanning electron microscopy, and transmission electron microscopy. Three main periods were distinguished during the morphogenesis of this structure. In the first period (sta

## Abstract Antibodies directed against γ‐aminobutyric acid (GABA) and L‐glutamic acid decarboxylases 65 and 67 kDa (GAD65 and ‐67) were used to study the GABAergic cell populations of the chameleon retina. GABA immunoreactivity was found in the two main types of retinal interneurons, amacrine and

## Abstract The nasal capsule of the chameleon differs greatly from that of other lizards in several respects. Cartilage is extremely persistent, particularly in the roof. The anterior chamber is produced backward to form an accessory posterior chamber. This posterior extension lies lateral to the

A n examination of serial sections of the ears of several specimens of Chamaeleo senegalensis and ChamaeEeo quilensis gives support to a n earlier suggestion that these ears function by means of a substitute round window. The usual type of round window is absent, but there is a tortuous pathway lead

## Abstract The development of lizard embryos is typically initiated at fertilization and continues until birth or hatching. In contrast, embryonic development of some chameleons is arrested at the gastrula stage, and embryos remain at this stage for months after the eggs are laid. Our research tes

## Abstract I evaluated the effect of incubation temperature on phenotypes of the veiled chameleon, __Chamaeleo calyptratus__. I chose this species for study because its large clutch size (30–40 eggs or more) allows replication within clutches both within and among experimental treatments. The majo