Gorgonia ventalina contains secondary metabolites and calcified sclerites that act as anti-predator defenses. These anti-predator defenses act as successful feeding deterrents to the Cyphoma gibbosum, a common predator of the G. ventalina. Cyphoma gibbosum feeds on gorgonian polyps by crawling slowly over the skeleton. Trotonia hamnerorum is a specialized predator on G. ventalina.
Known Predators:
In Anthozoans, specialized sensory organs are absent and nerves are arranged in nerve nets. Most nerve cells allow impulses to travel in either direction. Hairlike projections on individual cells are mechanoreceptors and possible chemoreceptors. Some Anthozoans show a sensitivity to light.
Communication Channels: tactile ; chemical
Perception Channels: tactile ; chemical
No current conservation details available.
US Migratory Bird Act: no special status
US Federal List: no special status
Once a planulae polyp is settled on a hard surface, the young polyp creates a horizonatal layer of aragonite called the basal disk. As the polyp grows upward, the base's margin also turns upward, forming a cup called the epitheca, which contains daily growth bands. These and other sturctures called septa form the skeletal boundaries found at the bottom of the coral polyps, which are left behind as a result of the upward growth of the polyp.
Could not find any adverse effects on humans.
Compounds have been separated from G. ventalina to make antibiotics. These compounds include octacoral.
Gorgonia ventalina is popularly collected for use in aqauriums and as souvenirs.
As a colorful addition to coral reef habitats, its presence also is important to ecotourism.
Positive Impacts: pet trade ; ecotourism ; source of medicine or drug
Gorgonia ventalina has several ecosystem roles, primarily by serving as a substrate for many other organisms. For example, bivavle molluscs, sponges, and algae may grow on dead sections of the sea fan. However, it is not known if the growth of these organisms kills the sections or if they invade after the coral is already dead. Certain organisms, such as the brittle star and the basket starfish, use the tall G. ventalina to climb to a more advantageous position for filter feeding in reef areas. There have been studies into the role that sea fans, including G. ventalina, have in the formation of coral reefs. Conclusions were the limestone inner structure provides some of the base where other corals may attach to form more colonies.
Ecosystem Impact: creates habitat
Mutualist Species:
Gorgonia ventalina is carnivourous, feeding on zooplankton, especially at night. A passive feeder, Gorgonia ventalina orients itself in the path of the sea current, so that the current flows past the fan and the zooplankton in the current are caught and eaten. In addition to being a carnivorous passive feeder, G. ventalina also has zooxanthellae, which extensively colonize the sea fan, especially in the epidermis, polyps, and gastrodermal canals and the anthocodial septae. These zooxanthellae, usually Symbiodinium sp., are also able to provide the sea fan with nutrients through its photosynthetic activities.
Animal Foods: aquatic crustaceans; zooplankton
Primary Diet: carnivore (Eats non-insect arthropods); planktivore
The geographic range of Gorgonia ventalina is from Bermuda to Curacao, including the Florida Keys and Western Caribbean. However, it is not found in the Gulf of Mexico. In geographic ranges, it is found in the southeastern part of the of the nearctic region and the northwestern part of the neotropical region.
Biogeographic Regions: neotropical (Native ); atlantic ocean
Gorgonia ventalina is distributed in a clumped, non-random distribution on coral reefs. Usually the most common gorgonian in coral reef habitats, it is primarily found on band and patch reefs. In addition, the G. ventalina can be found in near-shore areas with heavy wave action and also on deeper reefs (depths greater than 15 m).
Habitat Regions: tropical ; saltwater or marine
Aquatic Biomes: reef ; coastal
There are several potential causes of death for G. ventalina. The greatest cause of mortality is the disattachment of a colony from the substrate, most likely by wave action and storms. The overgrowth of the sea fan by other organisms is also another leading cause of death, especially by the hydrocoralline Millipora alcicornis and some encrusting bryozoa. The cause of death is attributed to the lack of food and oxygen to the polyp. Recently, mortality has also been attributed to tumor growth. The tumors observed on G. ventalina exposed to environmental stresses include the presence of pollutants, rising water temperature, increased nutrient concentrations, and increased turbidity. The large tumor masses, which were most often concentrated at the axial bases of the affected clonies were clearly associated with tissue death (necrosis) and erosion of the affected coral. According to Cary, there is no evidence that gorgonian colonies ever die from old age.
Gorgonia ventalina is usually purple but can vary to its less common colors of yellow-orange, yellow, and brown. In some cases, the color of the sea fan is a result of the environment and the chemicals in the enviroment. The principle pigments of the sea fan are fixed in the spicules (needle-like parts of solid calcium carbonate). Colors result from chemical pigments produced in the spicules. Since the color of the fan varies, the shape of the spicules is the only positive identifier of G. ventalina. The spicules are small and fusiform. The polyps of the G. ventalina protrude from the spicules as tiny fragile white flowers. It is these individual polyps that form the sea fan.
Gorgonia ventalina can be up to 180 cm tall and 150 cm wide, with anastomose branches, which form uniplanar, reticulate, fan-shaped colonies. The branches are round or slightly compressed in the plane of the fan branch.
Range length: 180 (high) cm.
Other Physical Features: ectothermic ; heterothermic ; radial symmetry
Gorgonian corals reproduce asexually by cloning or fragmentation, with external fertilization. The larvae typically spend several days as plankton before settling on a hard surface to begin formation of a colony.
Key Reproductive Features: asexual ; fertilization (External ); oviparous
Parental Investment: no parental involvement
Gorgonia ventalina, the common sea fan and purple sea fan, is a species of sea fan, an octocoral in the family Gorgoniidae. It is found in the western Atlantic Ocean and the Caribbean Sea.
G. ventalina is a fan-shaped colonial coral with several main branches and a latticework of linking smaller branches. The skeleton is composed of calcite and gorgonion, a collagen-like compound. The calyces in which the polyps are embedded are in two rows along the branches. Many of the smaller branches are compressed in the plane of the fan, which distinguishes this species from the Venus sea fan (Gorgonia flabellum). It often has small accessory fans growing out sideways from the main fan. It grows to 1.5 m (5 ft) tall and is variable in colour, being whitish, yellow, or pale purple. The main branches are often purple and the fan is orientated at right angles to the current.[3][4]
The purple sea fan is found in the western Atlantic and Caribbean, with a range extending from Bermuda and Florida and the Gulf of Mexico to Curaçao. It grows near the shore in shallow water in areas with strong wave action and on deeper outer reefs with strong currents down to a depth of about 15 m (49 ft).[3]
G. ventalina is a filter feeder. Each polyp extends its eight tentacles to catch plankton drifting past on the current. Its tissues contain symbiotic dinoflagellate Symbiodinium spp., which are photosynthetic and use sunlight to create organic carbon compounds which are then available to the host coral.[5]
The skeleton of G. ventalina contains hard structures known as sclerites which are unpalatable to predators. It also contains certain secondary metabolites in its tissues which are distasteful. The nudibranch Tritonia hamnerorum seems undeterred by these defences and is often found associated with the coral. While feeding on the coral, it concentrates the metabolites in its tissues which render it unpleasant to potential predators.[5] This is because T.hamnerorum sequesters the chemical compound julieannfuran from G.ventalina to use as a chemical deterrent to predators. [6]
This coral is sometimes attacked by the fungus Aspergillus sydowii which causes aspergillosis. This results in damaged patches, galls, purpling of the tissues, and even coral death. Several epizootics have occurred in the Caribbean on corals growing in stressful conditions such as in low-salinity water in estuaries which seem especially susceptible.[5] A parasite of the class Labyrinthulomycetes in the family Thraustochytriidae has been found to have similar effects of damaged purple patches on the fan called multifocal purple spots. [7]
A study done in the U.S. Virgin Islands has shown that G. ventalina has a high ecological resilience with populations maintaining their densities after two hurricanes in 2017. [8]
Gorgonia ventalina, the common sea fan and purple sea fan, is a species of sea fan, an octocoral in the family Gorgoniidae. It is found in the western Atlantic Ocean and the Caribbean Sea.
Gorgonia ventalina is een zachte koraalsoort uit de familie Gorgoniidae. De koraalsoort komt uit het geslacht Gorgonia. Gorgonia ventalina werd in 1758 voor het eerst wetenschappelijk beschreven door Linnaeus.
Bronnen, noten en/of referentiesGorgónia vejárovitá (lat. Gorgonia ventalina, Gorgonia flabellum, Rhipidogorgia flagellum), prezývaná Venušin vejár, je druh vejárovníka. Tvorí často aj vyše metra vysoké vejárovité kolónie z veľmi jemnej modrej a žltej sieťoviny.
Gorgónia vejárovitá (lat. Gorgonia ventalina, Gorgonia flabellum, Rhipidogorgia flagellum), prezývaná Venušin vejár, je druh vejárovníka. Tvorí často aj vyše metra vysoké vejárovité kolónie z veľmi jemnej modrej a žltej sieťoviny.