Amazing Animals #27 The Flamboyant Cuttlefish

@amavi · 2018-03-16 19:28 · animals

As a young child I always had the dream of one day becoming a marine biologist, various different life events and changes in interests gradually reduced my focus on this dream, partner that with the fact that I’m a weak swimmer and am not overly comfortable if I can’t see the seafloor and I can safely say that I’m happy to be a Zookeeper… on dry land.

Despite this I still have a keen interest in aquatic species and often wonder what it would be like to work in an environment where new discoveries are made on an almost daily basis, the variety of life within our Oceans is also unparalleled compared to any other Biome, a particular interest of mine are the Cephalopods.

Cephalopods are intelligent, come in many shapes and sizes and are truly marvels of evolution with some Orders remaining relatively unchanged for hundreds of millions of years, the flamboyant Cuttlefish is an interesting example of the order Sepiida (Cuttlefish) and are a worthy animal to represent the first Cephalopod of this series.

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Description

The flamboyant Cuttlefish (Metasepia pfefferi) are a stunningly beautiful species of cuttlefish are a great example of the weird and wonderful routes evolution can take, Cuttlefish in general are quite peculiar animals so I feel it would be beneficial to go over the basic traits of their Order whilst including details on the Flamboyant Cuttlefishes specific traits along the way.

Extended tentacles of the flamboyant Cuttlefish

All Cuttlefish have 8 arms located at the front of their body, accompanying these 8 arms are two tentacles that act as the Cuttlefishes main form of offense when hunting prey, both the tentacles and the arms are adorned with denticulated (toothlike) suckers which effectively grasp their prey, the tentacles are generally 3-4 times longer than the arms and can be extended rapidly thus allowing the Cuttlefish to be quite the ambush predator.

The Eyes of any Cuttlefish are very different from our own in their appearance, all Cuttlefish possess large eyes in relation to their body-size and have a W/Cup shaped pupil at the centre, the pupil is often outlined with a thin Iris that differs in colour from species to species, the Flamboyant Cuttlefishes eyes don’t quite stand out as much as at a glance they blend in seamlessly with their vivid colouration and ridged body shape.

The beautiful Eye of the common Cuttlefish, their eyes are one of the first organs to develop and they are thought to learn many of their behaviours whilst inside their Egg sac

Their eyes may appear somewhat similar to those of Vertebrate species though they are anything but, they do not have the ability to see in colour but are able to perceive the polarization of light thus enhancing their capability to distinguish contrast, the structure of their eyes is quite strange, they have two sensory cells called Foveae on their Retina, one looks backwards, the other forwards.

Our own eyes alter our focus by reshaping the lens, the Cuttlefishes eyes do not have this capability, instead the entire lens is shifted toward or away from the Retina, their eyes are also assembled in a “perfect” manner, with the entire optic nerve behind the retina as opposed to our own which is both behind and in front which creates blind spots, the Cuttlefishes optic nerve generates no blind spots and they are able to look both forwards and backwards simultaneously, sneaking up on a Cuttlefish is a difficult task!

Cuttlefish comes in a variety of shapes and sizes, coincidentally one of the smallest species of Cuttlefish is the flamboyant Cuttlefish, on average they measure just 8 cm’s in total body length (tentacles retracted) and weigh around 300-400 grams when fully matured, this is tiny compared to the largest species the Australian giant Cuttlefish (Sepia apama) which grow to 0.5 metres long and can weigh as much as 11.5 kg’s.

The largest part of the Cuttlefish is known as the mantle, the mantle is the entire section of the body behind the head, in Cuttlefish the mantle is often frilled or has visible lateral flaps, these flaps can be moved to aid in swimming, the primary function of the mantle is to house essential organs and to act as the Cuttlefishes primary source of locomotion, the Cuttlefish inhales water in to the muscular mantle and then rapidly expels the water through the Siphon, thus effectively functioning as form of jet propulsion.

https://www.youtube.com/watch?v=uw37uqJ4G88&t=55s

Cuttlefish swimming, the Siphon can be positioned to swim both forwards and backwards

The mantle of the flamboyant Cuttlefish has three pairs of fleshy ridges known as papillae on the dorsal side of their mantle as well as a V-shaped ventral (underside) ridge, they also have a pair of papillae over their eyes, the overall function of the papillae is to break the outline of the flamboyant Cuttlefish, the tips of the lateral flaps, as well as the papillae are often bright yellow in their colouration.

All Cuttlefish possess an internal structure within the mantle called the Cuttlebone, the Cuttlebone is not the same as a backbone despite running the length of their body so they are still Invertebrates, it is made out of a material called Argonite and is porous and chambered, the main function of the Cuttlebone is to control buoyancy as they do not possess a swim bladder and are therefore reliant on gas/liquid exchange within the Cuttlebone.

Cuttlebone of the giant Australian Cuttlefish, its shape, size and structure varies from species to species

The Cuttlebone is technically an internal shell and functions much in the same way as the shells of other chambered-shell cephalopods, along the ventral line of the Cuttlebone is a thin strand of tissue known as the Siphuncle, the Siphuncle connects all of the chambers within the Cuttlebone, the Siphuncle allows liquid to be expelled from the chambers, in doing so the Cuttlefish experiences improved buoyancy, however this process is not overly efficient and they are unable to rise or sink at will.

The Cuttlebone of the flamboyant Cuttlefish is relatively small compared to other species and is on average only two thirds to three quarters the length of its mantle, it is also lacking an outer cone which is observable in the majority of Cuttlefish species, due to its small size it cannot float for prolonged periods of time and therefore it can normally be found on the seafloor.

Their circulatory system is interesting and much the same as most other Cephalopods which I’d rather cover in more detail as a topic in itself, just for quick facts they have three hearts with one heart for each gill, and a single heart for the rest of the body, each of these systems are separate from one and other and their blood is blue as a result of their blood containing Hemocyanin as opposed to Hemoglobin!

Any Cuttlefish found in the American waters can be considered an invasive species

Cuttlefish are quite strange animals with regard to their geographic range, they are present in temperate/tropical waters and frequently inhabit coastlines across western Europe, east/southern Asia, throughout the Mediterranean, and every coastline of Africa and Australia, despite this massive range they are completely absent from northern, central and southern coastlines of the Americas.

The Flamboyant Cuttlefish can be found in the tropical shallow waters of northern Australia and southern New-Guinea, scattered populations can also be found in the coastal waters of various Philippine islands, Indonesia and Malaysia, they prefer to inhabit sandy/muddy terrain that offers ample camouflaging opportunities.

Behaviour, Colour and Communication

The behaviour of the flamboyant Cuttlefish is quite peculiar and unique as they are the only species of Cuttlefish currently known to live a “grounded” existence, they effectively use their arms as well as their ventral ridge to walk along the seafloor as opposed to swimming, their normal base colour is a generally uniform dark brown, this, along with their jagged outline can lead to the animal appearing much-like debris rolling across the seafloor.

https://www.youtube.com/watch?v=51jB8YljliM

I'm not sure as to why creepy music was added, though this is a decent representation of flamboyant Cuttlefish movement and their remarkable ability to alter their shape and colour

They are diurnal predators meaning they are active throughout the day, they exhibit stalking behaviour when hunting and they actively alter their colouration to blend in with the environment that they are in, in this sense the Cuttlefish is an ambush predator, their two main methods for catching prey are stalking, and baiting, whereby the Cuttlefish may remain in the same location for prolonged periods of time whilst altering the colouration of their arms and also moving them in a way that may mimic a prey animals food source (for instance Algal strands), once attracted the Cuttlefish can lunge the unsuspecting prey from close range thus ensuring a high degree of success.

Flamboyant Cuttlefish hunting a small Crustacean

Whilst the Cuttlefish has arguably the most advanced form of natural camouflage in the world, they are still vulnerable to larger predators such as other Cephalopods (including Cuttlefish), Sharks and large bony Fish, the Flamboyant Cuttlefish is quite a fragile animal, though it's toxicity which will cover later, is enough to dissuade even the boldest of predators.

Their diet consists primarily of small Crustaceans, Bony Fish and Molluscs, they are equipped with a sharp beak that is capable of ripping, tearing or smashing hard-shelled animals, they are obligate Carnivores.

By far their most interesting behavioural traits are associated with their ability to alter their colouration as well their visible texture at will as their primary method of communication and also offers a form of adaptive camouflage when hunting or avoiding predation, their incredible ability to alter their colouration is known as "rapid neural-polyphenism", we'll refer to it simply as polyphenism.

Polyphenism is achieved as the Cuttlefish possesses several anatomical cell structures layered on top of one and other that are also connected to a complex neural network, the cells are namely Chromatophores, Iridophores and Leucophores.

The Dermis of the Cuttlefish

Chromatophores are the most notable cell and the are essentially an organ within the Cuttlefishes skin, each Chromatophore resembles a sac that contains thousands of pigment granules which are surrounded by neurologically-controlled radial muscle fibres, as the muscles expand the pigment granules become exposed which allows a particular hue (predominantly yellows, oranges and browns) to be represented on their skin.

It is only when the muscle fibres connecting to the Chromatophores are retracted that the reflective layers of Iridophores and Leucophores become exposed, the iridophores can convey a variety of iridescent blues and greens, where as the Leucophores display a combination of high-contrast whites.

The Cuttlefish possesses millions of Chromatophores across its body and each one can be controlled individually, this allows them to display complex patterns and sequences that are quite simply mind-blowing to observe, it is now believed that many of the visual displays that they are capable of producing are instinctive and function automatically when exposed to a certain situation.

https://www.youtube.com/watch?v=KZg2hNkKPs0

Further video footage, this time of a captive specimen exhibiting polyphenism

A 2016 study on the behaviours of captive-bred flamboyant Cuttlefish categorised the four main forms of communication (components) as Textural (smoothness of the skin, emergence/reduction of papillae), Postural (positioning of all body parts), Locomotive (movement or rest) and Chromatic (consistent and independent grouping of altered colouration), the study concluded that the flamboyant cuttlefish displays between 42 and 75 chromatic components, 7 locomotive components, 14 postural components and 7 textural components, combined this means that the flamboyant Cuttlefish has roughly twice as many communication components (103) as the next closest species, the common Cuttlefish (Sepia officinalis)(55), this finding may be a result of how the tests were conducted and categorised, the study concluded:

Using maximum likelihood analysis and AutoClass@IJM software, we found that these components combine to generate 11 distinct body patterns. The software was able to sort 98% of the live animal observations into one of the 11 patterns with 90% confidence and 88% of observations with 99% confidence. Unusually for cuttlefish, 8 of the 11 identified patterns contained at least one “traveling” component (i.e., traveling waves or blinking spots) in which the colours on the skin appeared to travel on the animal’s mantle.

This indicates that 11 patterns are synonymous with the flamboyant Cuttlefish and are likely an automated response to a variety of specific scenarios ranging from post-hunting behaviour (vibrant colouration with a mixed pattern) to threatened behaviour (increased focus toward high contrast and luminous colours), this effectively functions as a hidden language embedded in to the animal which allows them to communicate with one and other in displays of aggression, courtship and submission, their polyphenism can also be employed to signal to would-be-predators that they are poisonous and are not suitable for consuming, it has also been theorised that it can be used as a method of hypnosis when hunting prey.

Interestingly the Cuttlefish is also capable of adaptive camouflage whereby they can mimic the colour and texture of their surroundings, this is achieved via visual observations though is made all the more remarkable as we have to remember that they are completely colour blind, furthermore they can also adapt to their surroundings in complete darkness.

https://www.youtube.com/watch?v=SfkhEm3LfvE&t=68s

Cuttlefish pattern recognition and adaptive camouflage

Much is still unknown as to how they are capable of such accurate determination and mimicry of colour, though it is theorised that by altering the position of the lens in their eye they can detect colour via Chromatic aberration, thus allowing them to identify specific individual wavelengths of light, however, more research is required before this can be considered entirely factual, many mysteries still surround these amazing animals!

Note: Some of the most interesting Cuttlefish behaviour can be observed in their reproductive behaviour, this however would be a giant Rabbit hole to venture in to and i'd rather keep this post at the average length for my normal posts, I will however add it to my list of things I'd like to write about as a solitary topic!

Toxicity

As mentioned previously the flamboyant Cuttlefish are able to change their colouration in a variety of ways to dissuade potential predators, this is not mere mimicry as the flamboyant Cuttlefish is a highly toxic creature, until recently they, along with their close relative Metasepia tullbergi were thought to be the only toxic Cuttlefish species, recent findings have however also classified Sepia bandensis and Sepia officinalis as toxic.

The Blue-ringed Octopus is venomous and injects its toxin through biting, Cuttlefish are poisonous and transmit their toxin by being ingested

More specifically the muscles themselves contain a poisonous toxin, they along with the three other mentioned Cuttlefish are the only species of Cephalopod currently known to science to exhibit this trait of poisonous flesh, there are two other Cephalopods known to be poisonous/venomous, the striped pyjama Squid which is thought to exhibit poisonous mucous, and the Blue-ringed Octopus (four species) which is known to possess a venomous bite.

Both of these toxins consist predominantly of the neurotoxin Tetrodotoxin which is roughly 1200 times more toxic than Cyanide and is the primary toxin of the three other Cuttlefish species, it is also commonly found in the organs of various species of Pufferfish, however the toxin found in the flamboyant Cuttlefish is not Tetrodotoxin.

The toxin found in the flamboyant Cuttlefish is incredibly rare in nature, and until its discovery, had never been previously observed, this means that the flamboyant Cuttlefish has a poison that is entirely unique from any other organism on the planet and from what I can see the poison is still uncategorized as of 2018, if anyone knows more I’d be intrigued to hear it!

Intelligence

Despite their size, Cuttlefish are surprisingly intelligent animals that have exceeded all expectations when observed, consider that the flamboyant Cuttlefish regularly only measures 3 inches in length, that doesn’t leave a lot of room to store a brain capable of complex function, though they do have the advantage of having the largest brain to body ratio of any invertebrate (along with Octopus and Squid).

It’s clear from examining the behaviour of Cuttlefish that they are capable of communicating with their surroundings, and that they are also able to process vast swathes of information in a short period of time, as is observed in their ab

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