The Phylum Cnidaria
Etymology of Cnidaria: From the Greek knide, for nettle.
Species Count (January 2021) COL = 13,351 and other sources.
Characteristics of Cnidaria:
- Radially Symmetrical.
- Body multicellular, few tissues, some organelles.
- Body contains an internal cavity and a mouth.
- Two different forms exist, medusa and polyp
- Reproduction is asexual or sexual.
- Has a simple net like nervous system.
- Has a distinct larval stage which is planktonic.
- Lives in aquatic environments, mostly marine.
- Mostly carnivorous otherwise filter feeders.
- May have a minimal skeleton of chiton or calcium carbonate.
The Cnidaria (pronounced ‘nidaria’) as a group of animals are well known to many people under their common names. Sea Anemones, Corals and Jellyfish are all Cnidarians as are Hydras, Sea Whips, Sea Fans and Sea Pansies. Another, much less well known group of Cnidarian are the Myxozoa. These are a moderately large group (2,400 identified as of March 2021) of microscopic endoparasites of mostly aquatic invertebrates and fish.
They are linked together by their carnivorous feeding habits, their simple anatomical design and the possession of nematocysts – though one species of Ctenophora possesses nematocysts as well.
The name Cnidaria has now pretty much replaced the older term of Coelenterata (pronounced selenterata), which these days is often applied to both the Cnidaria and the Ctenophora together. These two phyla are also known as the Radiate Animals because they both have radial or biradial symmetry.
The word Cnidaria refers to Cnidocytes, specialised cells which contain the Nematocysts – the stinging organelles that allow the Cnidaria to subdue their prey.
The Cnidaria are the oldest of the true metazoan phyla. A fossil Hydrozoan from South Australia called Ediacara is 700 million years old, while numerous fossil Cnidarians exist from the Cambrian 500 million years ago.
The Cnidarians, particularly the corals, often make up an important component of the shallow marine fauna of tropical and subtropical seas. All the Cnidaria are aquatic and nearly all are marine. Corals, because of their shallow marine environment and their habit of accumulating a mineralised skeleton (coralite), tend to fossilize well and we know quite a bit about their evolution.
The Cnidaria come in two basic forms, a ‘Polyp’ form typified by the Sea Anemones and a ‘Medusa’ form typified by Jellyfish.
Generally speaking, Polyps are tube shaped and sedentary with a ring of tentacles around the mouth. Medusae are umbrella or bell shaped, free living and have a central projection on the inside of the umbrella which supports the mouth and tentacles around the rim of the umbrella.
The Cnidarian body is basically a U shape, with intact walls that surround a central digestive area and a mouth at the opening (generally surrounded by tentacles). There is no distinct anus.
In Anemones, the mouth faces up and in Jellyfish it faces down.
The Cnidarians show a more complicated arrangement of cell layers as well as a greater range of cell types than the Porifera. Their bodies show two distinct layers of cells and thus they are called ‘Diploblastic animals’. The two cell layers are an outer Epidermis (or Ectoderm) and an inner Gastrodermis (or Endoderm).
These two layers are separated by the mesoglea, a non-cellular fibrous jelly like material. This is thin in some groups, such as the Hydras, but can be quite thick in others such as the Jellyfish (where it helps provide ‘negative buoyancy’, i.e., makes the animal more likely to float).
The ectodermis consists of five basic cell types:
- Epitheliomuscular cells, which supply some of the muscular capabilities of the animal.
- Interstitial cells, which are basic cells that give rise to the other cell types,
- Cnidocysts (see below),
- Mucous glands and
- Sensory or nerve cells.
The endodermis consists of three or four basic cell types:
- Gastromuscular cells, which help digest food items and provide some muscle power,
- Gland cells, that secrete enzymes for digestion,
- Mucous cells and
- Cnidocytes (in Anemones, but not in Hydras)
Nematocysts and Cnidocytes
One of the most important distinguishing characteristics of the phylum cnidaria are the Nematocysts.
Nematocysts – and their enclosing Cnidocytes – come in about 24 different forms. The differences play a functional role in the classification of the phylum.
A Cnidocyte is a cell that secretes a nematocyst within it. A basic Nematocyst is a capsule made of something like chitin, within which rests a coiled thread. This thread can be shot out of the capsule to encounter prey items, or in some cases to repel predators.
The Cnidocyte has either a modified flagellum, called a Cnidocil, or a cone as a sensory trigger. If this trigger is touched, the nematocyst thread is rapidly ejected.
Nematocyst threads come in 3 basic types. The fundamental nematocyst is a thin tubular thread with barbs at the far end, though there may be barbs near the base as well. When the nematocyst is discharged, the barbs penetrate the skin of the prey and a toxin can be injected.
Ptychocysts are uncommon, occurring only in the Ceriantharians. They lack spines or barbs, but are adhesive and can be used to line the tubes the Ceriantharians live in – as well as to entangle prey.
Spirocysts also lack barbs or spines. They are an enclosed tube that is adhesive and are used to trap prey in a tangled net of sticky threads.
Cnidarians and Humans
Though a few people get stung by jellyfish every year – and a very few of these stingings may be fatal – the only Cnidarians to have a real impact on human beings are the corals.
Corals, and the reefs they form, are important breeding areas for fish – some of which are commercially important. They are also important in terms of biodiversity, because of the wide range of creatures that live preferentially (or only in or near) in coral reefs.
Thirdly, they are of importance because of their beauty and thus have use as a tourist attraction. Coral reefs are among the most beautiful and colourful places on the planet. It is a sad truth (and a condemnation of humanity) that these structures, which take hundreds or thousands of years to develop, are rapidly being destroyed in one way or another by mankind.
Over 75% percent of reefs are now suffering some sort of damage, many are completely dead. However, their is a glimmer of hope: scientists are now conducting coral transplants on the barrier reef.
To add to their troubles, reef building corals, which live in a delicate balance with the dinoflagellate Symbiodinium microadriaticum, have a very narrow temperature range within which they produce new coral skeleton faster than the rest of nature wears it away. This temperature range is 23 to 29 degrees C, or 73 to 84 degrees F. There are fears that global warming could have a disastrously destructive effect on the world’s remaining coral reefs.
For several centuries, scientists have been unable to completely understand how coral reefs – among the most diverse ecosystems on the planet – could live in crystal clear tropical waters where there appears to be too little food to support them.
Recent studies by scientists from Australia and America have discovered that the key lies in the extremely rough surfaces that corals have. These surfaces cause microscopic turbulence, that breaks up the ‘boundary layer’ of still water that surround most submerged objects.
This then allows the corals to access a far higher percentage of the dissolved nutrients than they would be able to otherwise. This also explains the fact that corals grow more quickly in rougher waters.
The Cnidarians are either carnivores or omnivorous filter feeders.
The carnivorous forms do not hunt their prey. Instead they use various ‘sit and trap’ or ‘float/swim and trap’ strategies. They use their Nematocysts – which are not only found on the stinging tentacles, but can be all over the animals body – to stun and or kill their prey.
The Taxonomy of the Cnidaria
|Class||Life Style||Reproductive Form||Habitat||Common Name|
|Hydrozoa||Solitary or colonial, sessile as adult.||Sexual polyps and asexual medusa either of which may be absent.||Freshwater and Marine||Hydras and Siphonophores|
|Scyphozoa||Solitary, nearly all free swimming.||Sexual medusa with a reduced or absent polyp||Marine only||True Jellyfish|
|Anthozoa||Solitary or colonial sessile as adult.||Polyp only||Marine only||Anemones and Corals (both soft and hard).|
|Cubozoa||Solitary, nearly all free swimming.||Sexual polyps and asexual medusa either of which may be absent.||Marine only||Box Jellyfish|
|Staurozoa||Sessile as adult.||Sexual crawling larva and asexual.||Marine only.||Stalked Jellyfish|
|Myxozoa||Endoparasitc as adults and some larvae, but with some free living stages.||Complex, usually involving various form and two different hosts.||Freshwater and Marine||None|
There are about 13,351 species of Cnidarians divided between six classes. The Myxozoa were only finally proven to be a part of the cnidaria after 2010. See Classification and Phylogenetics of Myxozoa by Ivan Fiala, Pavla Sojková (Bartošová) & Christopher M Whipps 2015.
- Class Anthozoa • 7,128 living spp.
- Order Actiniaria • 1,138 living spp.
- Order Alcyonacea • 3,408 living spp.
- Order Antipatharia • 267 living spp.
- Order Corallimorpharia • 48 living spp.
- Order Heliolitina • 1 living spp.
- Order Helioporacea • 6 living spp.
- Order Penicillaria • 38 living spp.
- Order Pennatulacea • 229 living spp.
- Order Scleractinia • 1,607 living spp.
- Order Spirularia • 98 living spp.
- Order Zoantharia • 288 living spp.
- Class Cubozoa • 47 living spp.
- Order Carybdeida • 33 living spp.
- Order Chirodropida • 14 living spp.
- Class Hydrozoa • 3,730 living spp.
- Order Actinulida • 10 living spp.
- Order Anthoathecata • 1,303 living spp.
- Order Leptothecata • 2,077 living spp.
- Order Limnomedusae • 56 living spp.
- Order Narcomedusae • 43 living spp.
- Order Siphonophorae • 188 living spp.
- Order Trachymedusae • 53 living spp.
- Class Scyphozoa • 196 living spp.
- Order Coronatae • 53 living spp.
- Order Rhizostomeae • 78 living spp.
- Order Semaeostomeae • 65 living spp.
- Class Staurozoa • 50 living spp.
- Order Stauromedusae • 50 living spp.
- Class Malacosporea
- Order Malacovalvulida • 16+ living spp.
- Class Myxosporea • 2,200 + living spp.
- Order Bivalvulida • 707 living spp.
- Order Multivalvulida • 1,500 + living spp.