Mimic octopus (Thaumoctopus mimicus)
The mimic octopus grows to an average length of 60cm (2 feet) and its arms grow to be 62 cm (25 in long). The natural colour is light brown/beige, but the octopus may adopt a striped white and brown pattern to scare off predators by appearing to be poisonous. It is unknown if it is poisonous to predators. It is assumed that if it is not considering that it is poisonous, there would be no need to camouflage themselves as all the other poisonous sea animals (1).
Most octopuses can use pigment sacs (chromatophores) to change their skin colour and texture to blend in with their surrounding background, such as algae-encrusted rock and nearby coral. The mimic octopus can blend in with backgrounds and can mimic the shape of objects, such as coral and rock, and some animals (1). It is the only known aquatic species that impersonates an array of different sea animals via changes in behaviour, coloration and body posture, depending on what predator it is trying to elude (2). It uses mimicry as a primary defense and is reputed to mimic up to 15 species of other local marine organisms. When motionless, it assumes body patterns and postures resembling small sponges, tube-worm tubes or colonial tunicates in an open sand habitat. The barren homelands provided the impetus to evolve mimicry (4). The octopus is intelligent enough to discern which dangerous sea creature to impersonate that will present the greatest threat to its current possible predator. When an octopus was attacked by territorial damselfishes, it mimicked the black-and-yellow banded sea snake, a predator of damselfishes (3).
Most of the animals it mimics are poisonous. Its shape shifting is probably a deliberate survival strategy. The animals it mimics include:
1. Lionfish: This poisonous fish has brown and white stripes and spines that trail behind it on all sides. When the octopus changes its colour and shapes its eight legs to look like spines, it seems to be a highly venomous creature that should be avoided.
2. Sea snake: If under attack, the octopus may hide in a hole except for two of its legs, which it sticks out in opposite directions. What remains in view is a long thin object with white and black bands running across the elongated body. Many predators avoid tangling with the highly venomous sea snake and swim away, leaving the octopus unharmed.
3. Flatfish: The octopus mimicsa flatfish by pulling its arms together on one side and flattening out its body while moving forward along the ocean floor. It mimics the shape, swimming actions, speed, duration and sometimes the colour of swimming flounders. During flounder mimicry, it is actively moving and conspicuous; immediately before and after flounder mimicry, it is camouflaged and motionless (sitting or very slowly crawling). It uses flounder mimicry when its movement would give away camouflage in an open habitat.
4. Jellyfish – The octopus may act as a Jellyfish to frighten and discourage predators. It puffs up its head and siphon and lets its arms trail behind it. It mimics the motions of a jellyfish swimming by going to the surface and slowly sinking with its arms spread evenly around its body.
The mimic octopus can be classified as a hunter or a forager. It is thought to be a hunter, as it can stalk prey and hunt down small fish and catch them. More often, however, it forages for food by using a jet of water through its siphon (funnel) to glide over the sand, while searching for prey, and using its slender tentacles to reach into crevices in coral and holes in the sand, using its suction cups to grab small crustaceans and eat them. As it prefers to live in shallow, murky waters, it is believed that it feeds almost exclusively on small fish, crabs and worms, which are the only two animals that are common to those conditions that the octopus can survive on. The octopus isnot known to eat any type of plant or vegetation.(1). It may use aggressive mimicry to approach wary prey, such as mimicking a crab as an apparent mate, only to devour its deceived suitor. It prefers river mouths and estuaries to reefs, which give more shelter to other types of octopus. This is because it can impersonate poisonous fish and hides out in the open.
Males die within a few months after mating. A fertilized female lays about 200,000 eggs, which she hangs these eggs in strings from the ceiling of her lair or individually attaches them to the substratum. She cares for the eggs, guarding them against predators and gently blowing currents of water over them so they get enough oxygen. She does not eat for about a month while she takes care of the unhatched eggs. She dies at around the time the eggs hatch (5). The mimic octopus is not thought to be at risk of extinction.
|This article may require cleanup to meet Wikipedia's quality standards. The specific problem is: through proofing needed for grammar, errors, style, etc.; hunting vs foraging needs clarification; there are two citation styles--references vs bibliography; there are two sections with parallel information but also some conflicts--behavior vs observed behavior; duplicate info is scattered throughout. (May 2013)|
The mimic octopus (Thaumoctopus mimicus) is an Indo-Pacific species of octopus capable of impersonating other local species and/or predators. They are notable for being able to change their skin color and texture in order to blend in with their environment, such as algae-encrusted rock and nearby coral through pigment sacs known as chromatophores. The mimic octopus possesses chromatophores as well as the unique behaviour of taking shape of various objects and animals. The mimic octopus is the only currently known marine animal to be able to mimic such a wide variety of animals. Many animals can imitate a different species to avoid or intimidate predators, but the mimic octopus is the only one that can imitate as diverse a range of forms in order to elude predators.
Origin and discovery
The mimic octopus was first discovered off the coast of Sulawesi, Indonesia by a group of scientists in 1998. The species was thought to only inhabit the western and central Indo-Pacific (with most documented records from Indonesia) until one was spotted near the Great Barrier Reef on a shallow sand flat off Lizard Island in June 2012.
The mimic octopus is a smaller octopus, growing to a total length of about 60 cm (2 ft), including arms, with a diameter approximately that of a pencil at their widest. The octopus' natural color is a light brown/beige color, but usually appear a more noticeable color of striped white and brown to scare off predators by imitating poisonous species.
The mimic octopus uses a jet of water through its funnel to glide over the sand while searching for prey, typically small fish, crabs, and worms, protected by its apparently Batesian mimicry of aposematic animals. It also uses aggressive mimicry to approach wary prey, for example mimicking a crab as an apparent mate, only to devour its deceived suitor. It also prefers river mouths and estuaries, as opposed to reefs which are usually preferred as shelter by other types of octopus. This is because it is able to impersonate poisonous fish; therefore it is hiding out in the open.
The mimic octopus’s strategy is quite impressive. Mimicry is a common survival strategy in nature, certain flies assume the black and yellow stripes of a bee as a warning to potential predators, but the mimic octopus is the first to mimic more than one species. The mimic octopus is the first of its kind to possess the ability. It is unknown how many animals the mimic octopus can imitate. What is known is that most of the animals that it chooses to mimic are poisonous. This information adds to the likelihood that the shape shifting that the octopus is doing is a deliberate survival strategy. Some of the more common animals the mimic octopus imitates are the following:
Lion fish – The lion fish is a poisonous fish with brown and white stripes, and spines that trail behind it on all sides. When the octopus changes its color and shapes its eight legs to look like spines, it is indeed conceivable that to the eyes of a potential predator, what might otherwise look like suitable prey, appears in fact as a highly venomous creature that should be avoided.
Sea snake – If under attack, a mimic octopus may hide completely in a hole except for two of its legs, which it sticks out in opposite directions. What remains in view is a long thin object with white and black bands running across the elongated body. Again the prospect of tangling with the highly venomous sea snake is something many predators would not attempt, and they therefore may swim away, leaving the octopus unharmed.
Flatfish – By pulling its arms together on one side, and flattening out his body while moving forward along the ocean floor, the mimic octopus imitates a flatfish.
Jellyfish – The Mimic Octopus will act as a Jellyfish sometimes to frighten and discourage certain predators. It does this by puffing up its head and siphon and letting its arms trail behind it. The octopus will then impersonate the motions of a jellyfish swimming by going to the surface and then slowly sinking with its arms spread evenly around its body.
The so-called ‘mimic octopus’ of tropical Indo-Pacific are reputed to mimic up to 15 species of other local marine organisms. Mimicry of a local, abundant flounder was observed; nearly 500 episodes were analyzed. Both octopus species mimicked the shape, swimming actions, speed, duration, and sometimes the coloration of swimming flounders. During flounder mimicry, octopuses were actively moving and conspicuous, whereas immediately before and after flounder mimicry, they were camouflaged and motionless (sitting or very slowly crawling). Furthermore, when motionless, the octopuses assumed body patterns and postures that resembled small sponges, tube-worm tubes, or colonial tunicates, which were among the few objects in the open sand habitat. The key finding was that octopi used flounder mimicry only when their movement would give away camouflage in this open habitat. In all cases, octopuses used mimicry as a primary defense. The mimic’s behaviour remained undiscovered for years because its dull homelands are poorly studied. But it is precisely this barren nature that has provided the impetus to evolve such amazing behaviour.
It is of great interest that the particular examples of mimicry observed used may have apparent relevance. For example, scientists observed that when the octopus was attacked by territorial damselfishes, it mimicked the banded sea snake, a known predator of damselfishes.
The mimic octopus can either be classified as a hunter or a forager. It is believed to be a hunter because scientists have observed and recorded the octopus having the ability to stalk prey and hunt down small fish and catch them. More often, however, the Mimic Octopus can be seen foraging for food. It does this by using a jet of water through its siphon to glide over the sand while searching for prey, and using its slender tentacles to reach into crevices in coral, as well as holes in the sand, and use its suction cups to grab small crustaceans and eat them. Because the Mimic Octopus prefers to live in shallow, murky waters, it is believed that its diet consists almost exclusively of small fish and crustaceans. That is because those are the only two animals that are common to those conditions that a mimic octopus can survive on. They are believed to be carnivores, and are not known to eat any type of plant or vegetation. Living in the tropical Indo-Pacific seas, it was first discovered in 1998 off Sulawesi. The octopus mimics other animals using changes in both coloration and body posture; like other cephalopods it can also mimic its background.
As mentioned earlier, the mimic octopus varies its mimicry according to the situation. For example, when threatened by damselfish, an individual appeared as a black and yellow banded sea snake, a damselfish predator.
Habitat and range
The mimic octopus is native to the Indo-Pacific, ranging from the Red Sea in the west to New Caledonia in the east, and Thailand and the Philippines in the north to the Great Barrier Reef in south. Most documented records are from Indonesia. It is primarily found in areas with sand or silt at depths of less than 15 m (49 ft). It prefers obscuring murky and muddy sea floors to blend in with its natural brown, beige color.
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