Habitat Sea cucumbers can be found in great numbers on the deep seafloor, where they often make up the majority of the animal biomass. At depths deeper than , sea cucumbers comprise 90% of the total mass of the macrofauna. Sea cucumbers form large herds that move across the bathygraphic features of the ocean, hunting food. The body of some deep water holothuroids, such as
Enypniastes eximia,
Peniagone leander and
Paelopatides confundens, is made of a tough gelatinous tissue with unique properties that makes the animals able to control their own buoyancy, making it possible for them to either live on the ocean floor or to actively swim or float over it in order to move to new locations, in a manner similar to how the group
Torquaratoridae floats through water. Holothuroids appear to be the echinoderms best adapted to extreme depths, and are still very diversified beyond deep: several species from the family
Elpidiidae ("sea pigs") can be found deeper than , and the record seems to be some species of the genus
Myriotrochus (in particular
Myriotrochus bruuni), identified down to deep. In more shallow waters, sea cucumbers can form dense populations. The strawberry sea cucumber (
Squamocnus brevidentis) of
New Zealand lives on rocky walls around the southern coast of the South Island where populations sometimes reach densities of . For this reason, one such area in
Fiordland is called the strawberry fields.
Locomotion Some abyssal species in the abyssal order
Elasipodida have evolved to a "benthopelagic" behaviour: their body is nearly the same density as the water around them, so they can make long jumps (up to high), before falling slowly back to the ocean floor. Most of them have specific swimming appendages, such as some kind of umbrella (like
Enypniastes), or a long lobe on top of the body (
Psychropotes). Only one species is known as a true completely
pelagic species, that never comes close to the bottom:
Pelagothuria natatrix.
Diet Holothuroidea are generally
scavengers, feeding on debris in the
benthic zone of the ocean. Exceptions include some
pelagic cucumbers and the species
Rynkatorpa pawsoni, which has a
commensal relationship with deep-sea
anglerfish. The
diet of most cucumbers consists of
plankton and decaying organic matter found in the sea. Some sea cucumbers position themselves in
currents and catch food that flows by with their open tentacles. They also sift through the bottom
sediments using their tentacles. Other species can dig into bottom silt or sand until they are completely buried. They then extrude their feeding tentacles, ready to withdraw at any hint of danger. In the South Pacific, sea cucumbers may be found in densities of . These populations can process of sediment per year. The shape of the tentacles is generally adapted to the diet, and to the size of the particles to be ingested: the filter-feeding species mostly have complex arborescent tentacles, intended to maximize the surface area available for filtering, while the species feeding on the substratum will more often need digitate tentacles to sort out the nutritional material; the detritivore species living on fine sand or mud more often need shorter "peltate" tentacles, shaped like shovels. A single specimen can swallow more than of sediment a year, and their excellent digestive capacities allow them to reject a finer, purer and homogeneous sediment. Therefore, sea cucumbers play a major role in the biological processing of the sea bed (bioturbation, purge, homogenization of the substratum etc.). Image:Euapta godeffroyi, détail.jpg|The mouth of
Euapta godeffroyi, showing pinnate tentacles. Image:Apostichopus californicus.004 - Aquarium Finisterrae.jpg|Mouth of
Holothuria sp., showing peltate tentacles. Image:Cucumaria main.jpg|Mouth of
Cucumaria miniata, with dendritic tentacles, for filtering the water. Image:Holothurie sp..jpg|Faeces of a holothuroid. This participates in sediment homogenization and purification.
Communication and sociability Reproduction ) Most sea cucumbers reproduce by releasing
sperm and
ova into the ocean water. Depending on conditions, one organism can produce thousands of
gametes. Sea cucumbers are typically
dioecious, with separate male and female individuals, but some species are
protandric. The reproductive system consists of a single
gonad, consisting of a cluster of tubules emptying into a single duct that opens on the upper surface of the animal, close to the tentacles. A few species are known to brood their young inside the body cavity, giving birth through a small rupture in the body wall close to the anus. A variety of fish, most commonly
pearl fish, have evolved a
commensalistic symbiotic relationship with sea cucumbers in which the pearl fish will live in sea cucumber's cloaca using it for protection from predation, a source of food (the nutrients passing in and out of the anus from the water), and to develop into their adult stage of life. Many
polychaete worms (family
Polynoidae) and
crabs (like
Lissocarcinus orbicularis) have also specialized to use the mouth or the cloacal respiratory trees for protection by living inside the sea cucumber. Nevertheless, holothuroids species of the genus
Actinopyga have anal teeth that prevent visitors from penetrating their anus. Sea cucumbers can also shelter bivalves as endocommensals, such as
Entovalva sp. Image:Swimming Crab - Lissocarcinus Orbicularis on Sea Cucumber.jpg|
Lissocarcinus orbicularis, a symbiotic crab. Image:Shrimp on Sea Cucumber.jpg|
Periclimenes imperator, a symbiotic shrimp. Image:Polychètes sur T. anax.JPG|
Polynoid worms on a king sea cucumber.
Predators and defensive systems '', a selective predator of tropical sea cucumbers ejects sticky filaments from the anus in self-defense. Sea cucumbers are often ignored by most of the marine predators because of the toxins they contain (in particular,
holothurin) and because of their often spectacular defensive systems. However, they remain a prey for some highly specialized predators which are not affected by their toxins, such as the big mollusks
Tonna galea and
Tonna perdix, which paralyzes them using powerful poison before swallowing them completely. Some other less specialized and opportunist predators can also prey on sea cucumbers sometimes when they cannot find any better food, such as certain species of fish (
triggerfish,
pufferfish) and crustaceans (crabs, lobsters,
hermit crabs). Some species of coral-reef sea cucumbers within the order
Aspidochirotida can defend themselves by expelling their sticky
cuvierian tubules (enlargements of the respiratory tree that float freely in the
coelom) to entangle potential predators. When startled, these cucumbers may expel some of them through a tear in the wall of the
cloaca in an
autotomic process known as
evisceration. Replacement tubules grow back in one and a half to five weeks, depending on the species. The release of these tubules can also be accompanied by the discharge of a toxic chemical known as
holothurin, which has similar properties to soap. This chemical can kill animals in the vicinity and is one more method by which these sedentary animals can defend themselves.
Estivation If the water temperature becomes too high, some species of sea cucumber from temperate seas can
aestivate. While they are in this state of dormancy, they stop feeding, their gut atrophies, their metabolism slows down and they lose weight. The body returns to its normal state when conditions improve. ==Phylogeny and classification==