Blue Fleet: Beyond the Bluebottle

Australia's curious and exquisitely beautiful ocean nomads: blue dragons, the by-the-wind sailor, the violet sea snail, and the blue button

By Underwater Earth

Part II of II in a story about the Blue Fleet. Title image by Matty Smith.

Blue Fleet at Malabar Beach (2021-03-05) by Vanessa Torres MachoUnderwater Earth

Introducing the bluebottle and the interconnected relationships and similarities it has with the other members of Australia’s Blue Fleet: blue dragons, the by-the-wind sailor, the violet sea snail, and the blue button.

Members of this specialised ocean community are all perpetual ocean castaways. They are all part of the pleuston food web - organisms living in the thin surface layer existing at the air-water interface of the ocean.

Beached Blue Button by Brett LobweinUnderwater Earth

Blue Fleet creatures are nomadic, rely on the winds and currents to carry them around and normally go unnoticed out in the open ocean. During certain conditions however, they are swept into coastal waters or washed up on Australian beaches allowing for more frequent encounters of these curious creatures.

Blue Fleet II at Malabar Beach (2021-03-05) by Vanessa Torres MachoUnderwater Earth

Each creature has specific adaptations such as air-filled sacs, rigid sail-like structures and flattened disc-shaped bodies making them excellent sailors. Some have stinging cells for hunting and defense, some feed on others in this specialised ocean community.

Glaucus at Shark Point (2018-02-04) by Vanessa Torres MachoUnderwater Earth

Blue Dragons

These tiny, brightly coloured shell-less nudibranchs (sea slugs) can be found roaming the surface of the Atlantic, Pacific and Indian Oceans in temperate and tropical waters. Glaucus atlanticus is larger (up to 3cm) and Glaucilla marginatus is smaller (up to 1.3cm). Both eat bluebottles and blue buttons. 

Glaucus Atlanticus by Talia GreisUnderwater Earth

Winds and ocean currents can occasionally cause many blue dragons to be washed up on beaches alongside other Blue Fleet members. A web of enthusiasts in Australia scour the shoreline when conditions are such to rescue, rehydrate and release the blue dragons to continue their nomadic lives at sea.

An air bubble stored in their stomachs helps keep the nudibranchs afloat so they can be carried along by the winds and ocean currents. This air bubble also helps them twirl around, do somersaults and most importantly turn upside down so they are camouflaged.

Blue Dragon Countershading by Brett LobweinUnderwater Earth

Blue dragons use their colouration for camouflage. They are a perfect example of ‘countershading’ used also by many other creatures including penguins and sharks, although the blue dragons countershade in reverse.

By floating upside down, its brightly coloured underbelly camouflages it against the ocean’s blue, concealing it from predators above. Its silvery back faces downwards to blend with the water’s bright surface protecting it from predators below.

Glaucus Eating a By-the-wind Sailor by Talia GreisUnderwater Earth

Blue dragons are not naturally venomous. They incorporate toxic chemicals or stinging cells from their prey into their own skin in concentrated doses creating a potent defence mechanism against predators.

Blue dragons are hermaphroditic — each individual produces both eggs and sperm. An individual cannot fertilize its own eggs, however, so pairs must still mate.

Violet Sea Snail Bubble Raft by Matty SmithUnderwater Earth

Violet Sea Snail (Janthina janthina)

Like blue dragons, this species is located in the tropical and subtropical Atlantic, Indian and Pacific oceans. Growing up to 4 cm, this ocean-roaming creature is one of the biggest organisms living in the pleustonic thin but expansive habitat.

The violet sea snail spends its whole life, often in large groups, drifting on the ocean surface at the mercy of the winds. Large groups are also found washed up on beaches all around Australia’s coastline.

Violet Sea Snail by Dimitris Poursanidis/terraSolutions m.e.rUnderwater Earth

The violet sea snail feeds on pelagic hydrozoans, especially bluebottles and by-the-wind-sailors. It has no means of propulsion, so must drift until it finds its prey.

It drifts by producing its own raft made from mucus it excretes which binds to a string of air bubbles it also produces. This all hardens to form its floating raft. If the raft ever breaks the violet sea snail loses its bubble float, sinks and dies.

Violet Sea Snail Countershading by Matty SmithUnderwater Earth

The violet sea snail's beautiful shell is paper-thin allowing it to float upside down at the ocean’s surface. As with the blue dragon, it uses reverse countershading to make use of its upside-down position in the water column, with a light purple shade pointing downwards, and a darker purple pointing upwards.

Beached By-the-wind Sailor by Brett LobweinUnderwater Earth

By-the-wind Sailors (Velella vellela)

Meet the by-the-wind sailor, another member of this specialised Blue Fleet ocean surface community. Often found in vast swarms of electric-blue sails in warm to warm-temperate waters throughout the world’s ocean.

Like others in this community, this ocean sailor moves across the surface of the water at the mercy of the winds and tides and is often found washed up in the thousands on beaches across the world after strong winds.

By-the-wind Sailor by Brett LobweinUnderwater Earth

Once thought to be a colony of specialised polyps like the bluebottle, it is now thought to be one single highly modified hydroid polyp. Its body comprises a flat oval transparent float 6-7 cm in diameter containing a series of concentric air-filled chambers that provide buoyancy.

It also has an erect triangular sail projecting vertically at an angle to the axis of its body. Similar to bluebottles, some have a right-sided sail, while others have a left-sided sail — which means each type travels and comes to shore on different winds.

By-the-wind Sailor Tentacles by Brett LobweinUnderwater Earth

Velella feed on zooplankton, small fish and crustaceans immediately below the water surface. They catch their prey by means of short tentacles with stinging cells that are effective against their prey but generally harmless to humans.

They also have symbiotic algae in their tissues, allowing them to photosynthesise, providing them an additional source of nutrition. As with the bluebottle, by-the-wind sailors are preyed on by blue dragons and violet sea snails.

Blue Button at Malabar Beach (2021-03-05) by Vanessa Torres MachoUnderwater Earth

Blue Button (Porpita porpita)

Just like other organisms in the pleuston food web, the blue button is a passive drifter, relying on currents and wind to transport it throughout the ocean. Often found in large aggregations, it is not uncommon for them to be washed up on the beach in large numbers.

Growing up to 3 cm in diameter, the blue button is found in tropical and subtropical Australian, Indo-Pacific, and Atlantic waters. Although it resembles a jellyfish, it is infact a colony of hydroidoan polyps that each function differently: some eat, some reproduce, some defend.

The blue button consists of two main parts: the float (considered the main body) and the hydroid colony. The float is actually made up of small air chambers connected to each other that collect and release air so that the blue bottle can sink or float.

Blue Button by Talia GreisUnderwater Earth

It also contains pores that are able to communicate with other blue buttons as well as its surroundings. The blue button has a single mouth located beneath the float, which is used for both the intake of prey, as a stomach and the expulsion of waste.

The hydroid colony resembles tentacles like those of the jellyfish. Each hydroid branches out in multiple strands that end in knobs of nematocysts containing venom to help capture its prey. Unlike the in-the-wind sailor which prefers a passive diet, the blue button will actively hunt its prey - feasting on small fish, eggs, crustacean larvae and other zooplankton.

Blue Button by Matty SmithUnderwater Earth

Blue buttons are hermaphrodites which means they have both male and female sex organs so they can actually reproduce on their own. This process happens when the reproductive polyp releases eggs and sperm into the water allowing fertilization to take place. The eggs then turn into larvae that later turn into adult polyps. Just like the blue bottle, the blue button is preyed on by the blue dragons and the violet sea snail.

Bluebottle I by Matty SmithUnderwater Earth

To learn more about Bluebottles return to Part I of this story on the Blue Fleet.   

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The story featured may in some cases have been created by an independent third party and may not always represent the views of the institutions, listed below, who have supplied the content.
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