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Cephalopod intelligence has an aspect of animal intellligence and important comparative aspect in our understanding of intelligence, because it relies on a nervous system fundamentally different from that of vertebrates. The cephalopod class of mollusks, particularly the Coleoidea subclass (cuttlefish, squid and octopuses), are considered the most intelligent invertebrates and an important example of advanced cognitive evolution in animals.
The scope of cephalopod intelligence is controversial, complicated by the challenges of studying these elusive and fundamentally different creatures. Classical conditioning of cephalopods has been reported, and one study (Fiorito and Scotto, 1992) even concluded that octopuses practice observational learning. However, the latter idea is strongly disputed, and doubt has been shed on some other reported capabilities as well. In any case, impressive spatial learning capacity, navigational abilities, and predatory techniques remain beyond question.
Examples of intelligenceEdit
Unlike most other molluscs, all cephalopods are active predators (with the possible exception of the bigfin squid). Their requirement to locate and capture their prey has been a probable driving force behind the development of their intelligence, uniquely advanced in their phylum.
Although the staple food source of most octopus species, crabs present significant challenges with their powerful pincers and their potential to exhaust the cephalopod's respiration system from a prolonged pursuit. In the face of these challenges, octopuses will instead seek out lobster traps and steal the prize inside. They are also known to climb aboard fishing boats and hide in the containers that hold dead or dying crabs.
Dexterity, a trait essential for tool use and manipulation is also found in cephalopods. The highly sensitive suction cups and prehensile arms of octopuses, squid, and cuttlefish are just as easily efficient at grasping objects as the human hand.
Another example of cephalopod intelligence is the communication that takes place between the more social species of squid. Some cephalopods are capable of rapid changes in skin color and pattern through nervous control of chromatophores. This ability almost certainly evolved primarily for camouflage, but squids use color, patterns, and flashing to communicate with one another in various courtship rituals. Caribbean Reef Squid can send one message via color patterns to a squid on their right, while they send another message to a squid on their left.
See also Edit
- ↑ "Cephalopod intelligence" in The Encyclopedia of Astrobiology, Astronomy, and Spaceflight.
- ↑ "What is this octopus thinking?" by Garry Hamilton
- ↑ Is the octopus really the invertebrate intellect of the sea? by Doug Stewart. In: National Wildlife. Feb/Mar 1997, vol.35 no.2
- ↑ Behold the Humboldt squid. Tim Zimmermann, Outside Magazine, July 2006.
- ↑ Cousteau, Jacques Yves (1978). Octopus and Squid: The Soft Intelligence
- ↑ Cloney, R.A. & E. Florey 1968. Ultrastructure of cephalopod chromatophore organs. Z Zellforsch Mikrosk Anat 89: 250-280. PMID 5700268
- ↑ The Cephalopod Page: Sepioteuthis sepioidea, Caribbean Reef squid
- ↑ Byrne, R.A., U. Griebel, J.B. Wood & J.A. Mather 2003. PDF (3.86 MiB) Berliner Geowissenschaftliche Abhandlungen 3: 29-35.
- What behavior can we expect of octopuses? by Dr. Jennifer Mather, Department of Psychology and Neuroscience, University of Lethbridge and Roland C. Anderson, The Seattle Aquarium.
- Is the octopus really the invertebrate intellect of the sea? by Doug Stewart. In: National Wildlife. Feb/Mar 1997, vol.35 no.2.
- Giant Octopus — Mighty but Secretive Denizen of the Deep from the Smithsonian National Zoological Park
- M.J. Wells (1962). Brain and Behaviour in Cephalopods, Heinemann.
- Binyamin Hochner, Tal Shomrat & Graziano Fiorito (June 2006). The Octopus: A Model for a Comparative Analysis of the Evolution of Learning and Memory Mechanisms. The Biol. Bull. 210 (210): 308–817.
- Octopuses are Smart Suckers!? By Dr. Jennifer Mather, Department of Psychology and Neuroscience, University of Lethbridge and Roland C. Anderson, The Seattle Aquarium
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