First report of a successful treatment of a mucodegenerative disease in the chambered nautilus (Nautilus pompilius).

A single Nautilus pompilius manifested a bacterial infection and nematode infestation soon after it was received from the wild, resulting in a significant buildup of mucus above the left eye and tentacles. This condition is known to lead to rapid mucodegeneration of the tentacles and epithelium, resulting in death. The specimen was quarantined 24 days after arrival.

The evolution of flexible behavioral repertoires in cephalopod molluscs.

Cephalopods are a large and ancient group of marine animals with complex brains. Forms extant today are equipped with brains, sensors, and effectors that allow them not to just exist beside modern vertebrates as predators and prey; they compete fiercely with marine vertebrates at every scale from small crustaceans to sperm whales. We review the evolution of this group's brains, learning ability and complex behavior.

A role for nautilus in studies of the evolution of brain and behavior.

Nautilus is an ancient remnant of a largely extinct cephalopod lineage.1 Its status within its clade is the subject of ongoing debate-its morphology, behavior and neuroanatomy may or may not be representative of an ancestral condition, and therefore its value as a model for ancestral cephalopods is uncertain. While the nautilus brain is simpler than that of more derived cephalopods2 (coleoids), it is plausible that this is a secondary simplification related to ecology, and not a precursor to the vertebrate-like CNS of modern cephalopods.

Memory of visual and topographical features suggests spatial learning in nautilus (Nautilus pompilius L.).

Previous studies demonstrate that soft-bodied (coleoid) cephalopods are adept at learning and remembering features of their environment, but little is known about their primitive relative, nautilus. Nautilus makes nightly migrations from deep to shallow water along coral reef slopes, covering large areas of varied substrate. Memory of its surroundings may be advantageous, but the nautilus brain is the simplest among extant cephalopods, lacking dedicated neural regions that support learning and memory in other cephalopods.

How lobsters, crayfishes, and crabs locate sources of odor: current perspectives and future directions.

Olfactory orientation poses many challenges for crustaceans in marine environments. Recent behavioral experiments lead to a new understanding of the role of multiple sensory appendages, whereas application of non-invasive chemical visualization techniques and biomimetic robotics have allowed researchers to correlate the stimulus environment with behavior and to directly test proposed orientation mechanisms in decapod crustaceans.