The morphology of the neurones migrated from the ganglion nodosum of the vagus in birds

Whether migrating birds compensate for wind drift or not is a fundamental question in bird migration research. The procedures to demonstrate and quantitatively estimate wind drift or compensation are fraught with difficulties and pitfalls. In this paper, we evaluate four methods that have been used

The development of the cerebral cortex requires large-scale movement of neurons from areas of proliferation to areas of differentiation and adult function in the cortex proper, and the patterns of this neuronal migration are surprisingly complex. The migration of neurons is affected by several natur

The ability of neurons in the ab-56). More axonal regeneration was seen in the hemidominal ganglion of Aplysia to regenerate their axons ganglion ipsilateral to the branchial nerve. Regenerafollowing branchial nerve crush was studied using rettion after 32 days postlesion was 60 { 5% of controls rog

Nitric oxide signaling is implicated in olfactory and visual pathways within the insect brain. In contrast, little is known about the distribution and function of nitric oxide synthase (NOS) in the ventral nerve cord. This study uses NADPH diaphorase histochemistry to describe the anatomy of NOS-con

## Abstract The perching foot of living birds is commonly characterized by a reversed or opposable digit I (hallux). Primitively, the hallux of nonavian theropod dinosaurs was unreversed and lay parallel to digits II–IV. Among basal birds, a unique digital innovation evolved in which the hallux opp