Echinoderms And Echinodermata

Echinoderms And Echinodermata: The Wonderous World of Starfish & Sea Urchins

Etymology: From the Greek Echinos for half, and Derma for skin.

Characteristics of Echinodermata:

  1. Possess 5-rayed symmetry, mostly radial, sometimes bilateral.
    Echinoderms And Echinodermata - Starfish
    Echinoderms And Echinodermata – Starfish
  2. Body has more than two cell layers, tissues and organs.
  3. Body cavity a true coelom.
  4. Most possesses a through gut with an anus.
  5. Body shape highly variable, but with no head.
  6. Nervous system includes a circum-oesophageal ring.
  7. Has a poorly defined open circulatory system.
  8. Possesses a water vascular system, which hydraulically operates the tube feet or feeding tentacles.
  9. Without excretory organs.
  10. Normally possesses a subepidermal system of calcareous plates
  11. Reproduction normally sexual and gonochoristic.
  12. Feeds on fine particles in the water, detritus or other animals.
  13. All live marine environments.

The Echinoderms are Feather Stars, Starfish, Sea Urchins, Brittle Stars, Sea Cucumbers, Sand Dollars and Sea Lilies.

As you can see from this list, they are a morphologically very diverse group.

At first it may not be obvious how they are all related, but despite their various forms they do all possess the characteristics outlined above. They are an ancient and very successful phylum of invertebrates with around 6,000 living members.

They are one of the best known and most loved groups of invertebrates. They are popular as symbols because of their unique shapes and beautiful colours.

Echinodermata are also one of the most evolutionarily advanced phyla, yet they are totally unique in many ways. They have evolved many morphological and physiological characteristics that set them apart from all the other phyla.

sea urchin echinoderms
Reef urchin, Echinometra viridis, underwater in the Caribbean sea

Although much research has been done on them, we are still a long way from really understanding them well. The echinoderms are, to express it simply, wonderfully attractive both aesthetically and intellectually.

Because of their calcareous skeleton, many echinoderms fossilize well and we have a good record of their evolutionary history derived from more than 20,000 fossil species.

They first evolved about 600 million years ago in the Precambrian period, along with many of the other major phyla. The first echinoderms (called carpoids) did not have any radial symmetry which shows that this characteristic was acquired later in the group’s evolutionary history.

Echinoderms are often difficult animals to kill and many have well developed powers of regeneration. Early attempts to control the Crown-of-Thorns starfish by chopping it up into several pieces merely resulted in helping it disperse, as each piece grew into a new animal.

Echinoderms are protected from most predators by their spines. Nevertheless some are eaten by other echinoderms and some by human beings.

The gonads of Sea Urchins are eaten in several places around the world, both raw and cooked and are considered to be very tasty. Also, in Asia the body wall of certain Sea Cucumbers is eaten – this contains over 50% digestible protein so it is valuable nutrition wise, as well as tasty… it is called Trepang.


Starfish, or Sea Stars are often a pest of commercial clam and oyster beds.

A single Starfish my eat over a dozen oysters or young clams every day. The now infamous Crown-of-Thorns Starfish (Acanthaster planci) has caused serious damage to many coral reefs around the world. Most notably the Great Barrier Reef off Eastern Australia, though there is the possibility that it was human mediated interference in the marine ecosystem that allowed it to become a pest.

crown starfish
Crown of Thorns Starfish

The Crown-of-Thorns Starfish is the only seriously venomous Starfish. Each of its spines is encased in a sheath which contains the venom. In coastal tourist zones, Starfish and Sea Urchin populations suffer because they are collected and dried to be sold as trinkets to the tourists.

It is better not to buy such things because as long as people keep buying them, ruthless people will continue to exterminate local populations for the sake of money.

In this modern world you would consider it uncivilised to buy a dead bird or an elephants foot as a holiday keepsake, so why buy a dead Echinoderm – or any other animal for that matter?

Echinodermata Characteristics

Echinoderms are all marine and nearly all are benthic, meaning they live on the sea floor.

No parasitic species of echinoderms are known. Though a number of species live commensally with other organisms such as fish, other echinoderms, polychaetes, molluscs, Platyhelminths, ctenophores and protozoa.

They are distinguished from the other phyla by several main characteristics.

  • Firstly they have a spiny calcareous exoskeleton, comprised of numerous plates.
  • Secondly they have what is called a water vascular system. This is basically a hydraulic system and is unique to echinoderms.
  • Thirdly they have pedicellaria, tiny pincers that keep other marine animals from settling on their skeleton.
  • Fourthly they have either radial or occasionally bilateral symmetry. The only other phylum to possess radial symmetry is the Cnidaria. In the case of Echinoderms, the symmetry is pentaradial – meaning there are five planes of symmetry, unlike the Cnidaria which have an uncountable number of planes of symmetry.

Record Holder Echinoderms

Record Species Relevant Information Waters
Largest Starfish Midgardia xandros Can have an arm reach of 1.38 m (4 ft 6 in ). Gulf of Mexico
Heaviest Starfish Thromidia catalai Maximum weight of 6 kg 13 lb 4 oz). New Caledonia
Largest Sea Urchin Sperosoma giganteum The shell has an average diametre of 32 cm (12.6 ins). Japan
Largest Sea Cucumber Stichopus variagatus 1 m long by 24 cm diametre (39 ins by 9.5 ins). Philippines
Smallest Starfish Patiriella Parvivipara Maximum Radius of 4.7 mm (0.18 ins). South Australia
Smallest Sea Urchin Echinocyamus scaber Diametre of shell = 5.5 mm (0.22 ins). astern Australia
Smallest Cucumber Psammothuria ganapatii Length = less than 4mm (0.16 ins). India
Deepest Living Myriotrochus bruuni Found at a depths up to 10,710 m or (35,130 ft). Marianas Trench

Did you know there are Starfish in the Genus Pteraster that live off the Pacific coast of North America that secrete copious amounts of thick poisonous mucous whenever they are attacked by a predator?

They are called Slimestars and the poison in their mucous is a saponin. An individual Slimestar can secrete so much mucous its predator gets bogged down in it.

Echinoderm Biology

The body wall of echinoderms consists of three layers.

The outer layer, called the epidermis, is only a single layer of cells which covers the entire animal including its various spines.

Echinodermata sea urchin Strongylocentrotus
Purple Sea Urchin, Strongylocentrotus purpuratus

The third layer is also a single layer of cells, the main difference being that these cells are ciliated. This layer encloses the the animal’s coelom, separating the animals guts from its skin. It is called the ‘coelomic lining’.

The middle layer is much thicker and is called the dermis. It is composed of connective tissue and contains the exoskeleton. This exoskeleton takes three different forms:

  • A set of closely joined plates with little individual movement, that exist as a test or shell (Feather Stars and Sea Urchins).
  • A set of separately articulating (more freely moving) small plates called ossicles (Starfish, Brittle Stars and the arms of Crinoids).
  • A collection of widely separated microscopic ossicles lying in the dermis, which in this case is quite leathery (Sea Cucumbers).

Whatever form they take, these plates or ossicles are always made from calcite – the ingredients for which are found in sea water.

The exoskeleton of echinoderms grows continuously throughout the animal’s life. Thus older animals are always larger than younger ones. The exoskeleton supports the spines, warts and tubercles that are often found on the echinoderm surface. These various protuberances are also generally made from calcite.

Tube Feetarbacia

Apart from its skin – and/or its spines – an echinoderm also has contact with the external world through its water vascular system and the tube-feet that are a part of this system.

The water vascular system of the echinoderms is unique in the living world and easily distinguishes them from all other phyla.

The system takes slightly different forms in the different classes. In the Crinoidea, which are believed to be the most ancient of the echinoderms, the tube feet are branched and secrete mucous. In the Ophiuroidea, the tube feet are simple and slender. In Asteroidea, Echinoidea and Holothuroidea, they are thicker and end in suckers.


The water vascular system starts with an opening to the external environment, called a madreporite.

From this, a short straight canal called the ‘stone canal’ leads to the ‘ring canal’. The ring canal is a ring – as might be expected – and it has five longitudinal canals branching off from it into each of the arms (or their morphological equivalents in Echinoidea and Holothuroidea).

In species with more than 5 arms, these canals branch out into each arm.

Crinoidea star fish
A many-armed crinoid clings to a coral reef in Wakatobi National Park, Indonesia.

On each side of each canal there arises a series of short lateral canals that lead, via a valve, into the descending tube feet and the ampulla that operate them. The tube feet pass through small holes in the animal’s exoskeleton. Muscles around the ampulla (which remains inside the exoskeleton) squeeze water into them, causing them to extend or relax.

Echinoderms are either filter feeders, substrate eaters or carnivores.

The gut is U-shaped in the Crinoidea, with the mouth and anus being on the same surface. In the other groups, it is a straight-through gut, with the mouth and anus on approximately opposite sides of the body.

Echinoderms have a sub-epidermal nerve net running all over their body. As well as this they have a circum-oral nerve ring, with 5 radial nerve cords extending from it into the arms. These nerves are in connection with those of the sub-epidermal nerve net.

Many Echinoderms use their tube feet as organs for gaseous exchange, but others such as the Ophiuroidea and the Holothuroidea have additional special sites or organs of respiration.

Fertilisation is always external and the larvae are planktonic and biradial. They develop the pentaradial symmetry of the adult forms later on.

Echinodermata Classification

The Echinoderms are a very diverse group and I shall look at the ecology and biology of the 4 extant classes separately. The phylum is divided into 4 subphyla and 16 classes, of which 12 are now extinct.

  • Phylum Echinodermata

    • Subphylum Homalozoa

      • Class Homostelea (extinct)
      • Class Homoiostelea (extinct)
      • Class Stylophora (extinct)
      • Class Ctenocystoidea (extinct)
  • Subphylum Crinozoa

    • Class Eocrinoidea (extinct)
    • Class Paracrinoidea (extinct)
    • Class Cystoidea (extinct)
    • Class Blastoidea (extinct)
    • Class Crinoidea (Sea Lilies and Feather Stars)
  • Subphylum Asterozoa

    • Class Ophiuroidea (Brittle Stars)
    • Class Asteroidea (Sea Stars, Starfish and Sand Dollars)
  • Subphylum Echinozoa

    • Class Helicoplacoidea (extinct)
    • Class Edriosteroidea (extinct)
    • Class Ophiocistioidea (extinct)
    • Class Echinoidea (Sea Urchins, Sea Biscuits and Sand Dollars)
    • Class Holothuroidea (Sea Cucumbers)

Final Thoughts

Well, I hope you have learned a little about the wonderful world of Echinoderms!

Perhaps now you’d be keen to learn about lancelets.

Gordon Ramel

Gordon is an ecologist with two degrees from Exeter University. He's also a teacher, a poet and the owner of 1,152 books. Oh - and he wrote this website.

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