Superfamilies

Within the Enthemonae suborder, there are 3 different superfamilies; Actinostoloidea, Actinoidea and Metridioidea, all superfamilies having other families within.

Actinostoloidea and Metridioidea is known for the rare phenomenon of brooding which is only seen in 57 species out of approximately 1100 within Actiniaria. These superfamilies which are predominately found in the Southern Ocean and therefore brood externally as well as having a combination of morphological features including 12 mesenteries and an oral disc similar to glandular sacs.^[2] Whereas, the Actinoidea is a shallow water Enthemonae.

Superfamilies and families in the suborder Enthemonae include:^[3]

• Superfamily Actinostoloidea
  • Family Actinostolidae
  • Family Halcampulactidae
• Superfamily Actinioidea
  • Family Actiniidae
  • Family Actinodendridae
  • Family Andresiidae
  • Family Capneidae
  • Family Condylanthidae
  • Family Haloclavidae
  • Family Homostichanthidae
  • Family Iosactinidae
  • Family Limnactiniidae
  • Family Liponematidae
  • Family Minyadidae
  • Family Oractinidae
  • Family Phymanthidae
  • Family Preactiniidae
  • Family Ptychodactinidae
  • Family Stichodactylidae
  • Family Thalassianthidae
• Superfamily Metridioidea
  • Family Acontiophoridae
  • Family Acricoactinidae
  • Family Actinoscyphiidae
  • Family Aiptasiidae
  • Family Aiptasiomorphidae
  • Family Aliciidae
  • Family Amphianthidae
  • Family Andvakiidae
  • Family Antipodactinidae
  • Family Bathyphelliidae
  • Family Boloceroididae
  • Family Diadumenidae
  • Family Exocoelactinidae
  • Family Gonactiniidae
  • Family Halcampidae
  • Family Haliactinidae
  • Family Hormathiidae
  • Family Isanthidae
  • Family Kadosactinidae
  • Family Metridiidae
  • Family Nemanthidae
  • Family Nevadneidae
  • Family Octineonidae
  • Family Ostiactinidae
  • Family Phelliidae
  • Family Sagartiidae
  • Family Sagartiomorphidae
  • Family Spongiactinidae

Body

The body is of a cylinder shape or a truncated cone shaped that contains the oral disk with a fringe of tentacles arranged in one to several configurations around the mouth opening. The basal body end in the majority of species extends into the pedal disk which serves with the purpose of an attachment to the substrate.^[4]

Mouth

The slit in the mouth leads to a flattened tube known as the actinopharynx which is seen to extend into the gastrovascular cavity. These two slit like structures run along the end of the mouth to ensure that the water circulates through the gastrovascular cavity for the end goal of re-pumping it out.^[4]

Gastrovascular Cavity

The gastrovascular cavity is lined by gastrodermis cells and divided by radical septa known as mesenteries, into both lateral chambers and the central part. There are incomplete and complete mesenteries that are located in pairs; the complete mesenteries have their internal edge in the upper part that attaches to the actinopharynx. Where in comparison, the incomplete ones fail to reach the actinopharynx therefore seeing them attach to the pedal or oral disc.^[4]

Venom system

All cnidarians lack a centralised venom system and in replace produce numerous venom tissues throughout the body, using 2 different cell types; nematocytes and ectodermal gland cells.^[6]

Nematocysts are the main venom delivery tissue which are capsules containing an inverted tubule capsule of extremely powerful discharge. They are present in all cnidarians and produce highly complex venom filled organelles.^[7] The most functional and common venom tissue within Enthemonae include tentacles which are used to capture prey, immobilise threats and used in digestion.^[8] 

The other cell type is ectodermal gland cells which is responsible for producing a distinct collections of toxins. These toxins can be released in greater quantities due to the larger capacity of the gland in comparison to the nematocytes, which allows for the opportunity for the reach of the venom to extend.

In general, the venom of an Enthemonae are harmless to humans and in most cases only cause skin rashes and edema in the area of contact with the tentacles.

Venom Tissue

The venom that is found within these tissues are a complex combination of proteins, polypeptides and other non-protein based compounds. These components are grouped into 4 functional categories,^[9] in the ‘Cytolytic peptide and protein toxins from sea anemones’.

Enzymes

Due to Enthemonae not having a centralised gland system, it makes it difficult to distinguish between enzymes that play a generalised role and that of an envenomation role.

The PLA 2 catalyses the hydrolysis of the phospholipids into free fatty acids and lysophosholipids. This have been convergently recruited into the venom.^[5]

Sexual reproduction

The sexual reproduction is a simple and straightforward process involving the fertilisation of an egg which evolves into a planula further to a polyp then an adult, which results in full anemones being released from the mouth of the adult.^[11]

The origin and the development of the germ cells in lower invertebrates originate from differentiated epithelial cells of the epidermis. This sees the simple reproductive system of sea anemones have no true gonads resulting in the accumulation of the sexual products at the mesenteries.^[12]

The sex of the germ cells is not always easy to determine at the initial stages of the cell differentiation process. However, developing oocytes unlike male germ cells, the changes in their nuclei begin earlier, with neighbouring cells may significantly differ in size.^[12]

Asexual reproduction

In comparison, there are multiple ways they can reproduce asexually including budding, fragmentation or by longitudinal or transverse binary fission.^[13]

Green Algae

The immense ecological success of sea anemones, such as Enthemonae is due to the symbiotic relations between the hosts and the unicellular green algae. These algae's are photosynthetic and therefore the exchanges between the two are based on a nutritional exchange of the algae's bi products of oxygen and glucose. Then in response the anemone provides the algae with a safe harbour as well as provides them with a greater exposure to sunlight used for photosynthesis.^[16]

Hermit Crabs

The Enthemonae and a young hermit crab will often develop a symbiotic relationship from a young stage. This involves the young hermit crab attaching the shell to the tentacles of the sea anemone, becoming partners for the duration of their life cycle. This process often results in the two organisms growing at roughly the same rate.^[17]

The type of symbiotic relationship they develop is known as commensalism as the hermit crab is protected from predators from the venom inside the tentacles of the Enthemonae. The anemone spreads its long thin tentacles over the crab as well as extending the venomous tentacles further out as an additional layer of protection.^[17]

In return the anemone gains a food sources from the excess tidbits that the hermit crab leaves behind, providing a steady flow of a food supply.