Pocillopora damicornis

Last updated

Pocillopora damicornis
Pocillopora damicornis Landaagiraavaru.JPG
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Cnidaria
Class: Hexacorallia
Order: Scleractinia
Family: Pocilloporidae
Genus: Pocillopora
Species:
P. damicornis
Binomial name
Pocillopora damicornis
Synonyms
List
  • Madrepora damicornis (Linnaeus, 1758)
  • Millepora damicornis Linnaeus, 1758
  • Pocillopora brevicornis Lamarck, 1816
  • Pocillopora bulbosa Ehrenberg, 1834
  • Pocillopora cespitosa Dana, 1846
  • Pocillopora diomedeae Vaughan, 1906
  • Pocillopora caespitosa Dana, 1846
  • Pocillopora favosa Ehrenburg
  • Pocillopora lacera Verrill, 1870

Pocillopora damicornis, commonly known as the cauliflower coral or lace coral, is a species of stony coral in the family Pocilloporidae. It is native to tropical and subtropical parts of the Indian and Pacific Oceans.

Contents

Description

P. damicornis is a colonial coral and can grow into clumps up to 30 cm (12 in) high. It is distinguishable from other members of the genus by the verrucae (wart-like growths) on its surface being more irregularly arranged. It is more branched than the otherwise similar P. verrucosa . Its form varies according to its habitat and is more open and branched in calm positions and more compact on the upper parts of reefs where water movement is greater. Its colour varies and may be greenish, pink, yellowish-brown or pale brown. [2]

Distribution and habitat

Cauliflower coral is native to the tropical and subtropical parts of the Indian and Pacific Oceans. Its wide range extends from East Africa and the Red Sea to Japan, Indonesia, Australia, Hawaii, Easter Island, and the western coast of Central America. [1] It is found at depths to about 40 m (131 ft), but is most common between 5 and 20 m (16 and 66 ft), often forming dense patches. It is equally found on reef slopes and in lagoons, among mangroves and on wharves, but not in areas with strong water movement. With such a wide range, it is one of the most abundant of corals. [2]

Biology

P. damicornis is a reef-building coral, grows fast, and is a strong competitor. The polyps extend their tentacles at night to feed on plankton. [1] When colonies are broken apart, chunks can become lodged on the seabed and grow into new individuals, a form of asexual reproduction by fragmentation. [1] This coral also reproduces by sexual means. It is a simultaneous hermaphrodite, and eggs and sperm are retained inside the coral and batches of planular larvae are released into the sea around the time of the new moon. [3] These have a lipid-rich yolk and great dispersal abilities, as they remain viable for as much as 100 days. [3] Although brooding of larvae occurs over most of its range, in Western Australia P. damicornis both broods planular larvae and releases gametes by broadcast spawning, while in the Eastern Pacific, only broadcast spawning takes place. [4]

Cauliflower coral contains microscopic symbiotic dinoflagellate algae (zooxanthellae) living within its tissues. Through photosynthesis, these algae produce energy-rich molecules the coral can assimilate. The density of the dinoflagellates varies depending on seasonal changes in water temperature, light levels, and dissolved nitrate concentration. It is a dynamic process and in extreme environmental conditions results in the complete expulsion of the algae and the bleaching of the coral. [5] However, compared to other corals, this species is resistant to bleaching. [1]

Based on the GeoSymbio Database, Pocillopora damicornis has been known to interact with 30 species (or subclade types) of Symbiodinium, the highest interaction rate of any known coral species along with Stylophora pistillata [6]

Status

In general, coral reefs around the world are being destroyed and although this coral is common and relatively resilient, populations likely are in decline along with their habitat. This coral is collected for the aquarium trade and in some regions, it is mined for conversion into cement. The IUCN has listed it as being of "Least Concern", as it considers the rate of decline in its populations is not sufficient to justify listing it in a more threatened category. Like all corals, it is listed on CITES Appendix II. [1]

Related Research Articles

<span class="mw-page-title-main">Coral</span> Marine invertebrates of the class Anthozoa

Corals are colonial marine invertebrates within the class Anthozoa of the phylum Cnidaria. They typically form compact colonies of many identical individual polyps. Coral species include the important reef builders that inhabit tropical oceans and secrete calcium carbonate to form a hard skeleton.

<span class="mw-page-title-main">Zooxanthellae</span> Dinoflagellates in symbiosis with coral, jellyfish and nudibranchs

Zooxanthellae is a colloquial term for single-celled dinoflagellates that are able to live in symbiosis with diverse marine invertebrates including demosponges, corals, jellyfish, and nudibranchs. Most known zooxanthellae are in the genus Symbiodinium, but some are known from the genus Amphidinium, and other taxa, as yet unidentified, may have similar endosymbiont affinities. The true Zooxanthella K.brandt is a mutualist of the radiolarian Collozoum inerme and systematically placed in Peridiniales. Another group of unicellular eukaryotes that partake in similar endosymbiotic relationships in both marine and freshwater habitats are green algae zoochlorellae.

<span class="mw-page-title-main">Staghorn coral</span>

The Staghorn coral is a branching, stony coral, within the Order Scleractinia. It is characterized by thick, upright branches which can grow in excess of 2 meters in height and resemble the antlers of a stag, hence the name, Staghorn. It grows within various areas of a reef but is most commonly found within shallow fore and back reefs, as well as patch reefs, where water depths rarely exceed 20 meters. Staghorn corals can exhibit very fast growth, adding up to 5 cm in new skeleton for every 1 cm of existing skeleton each year, making them one of the fastest growing fringe coral species in the Western Atlantic. Due to this fast growth, Acropora cervicornis, serve as one of the most important reef building corals, functioning as marine nurseries for juvenile fish, buffer zones for erosion and storms, and center points of biodiversity in the Western Atlantic.

<i>Symbiodinium</i> Genus of dinoflagellates (algae)

Symbiodinium is a genus of dinoflagellates that encompasses the largest and most prevalent group of endosymbiotic dinoflagellates known and have photosymbiotic relationships with many species. These unicellular microalgae commonly reside in the endoderm of tropical cnidarians such as corals, sea anemones, and jellyfish, where the products of their photosynthetic processing are exchanged in the host for inorganic molecules. They are also harbored by various species of demosponges, flatworms, mollusks such as the giant clams, foraminifera (soritids), and some ciliates. Generally, these dinoflagellates enter the host cell through phagocytosis, persist as intracellular symbionts, reproduce, and disperse to the environment. The exception is in most mollusks, where these symbionts are intercellular. Cnidarians that are associated with Symbiodinium occur mostly in warm oligotrophic (nutrient-poor), marine environments where they are often the dominant constituents of benthic communities. These dinoflagellates are therefore among the most abundant eukaryotic microbes found in coral reef ecosystems.

<i>Aiptasia</i> Genus of sea anemones

Aiptasia is a genus of a symbiotic cnidarian belonging to the class Anthozoa. Aiptasia is a widely distributed genus of temperate and tropical sea anemones of benthic lifestyle typically found living on mangrove roots and hard substrates. These anemones, as well as many other cnidarian species, often contain symbiotic dinoflagellate unicellular algae of the genus Symbiodinium living inside nutritive cells. The symbionts provide food mainly in the form of lipids and sugars produced from photosynthesis to the host while the hosts provides inorganic nutrients and a constant and protective environment to the algae. Species of Aiptasia are relatively weedy anemones able to withstand a relatively wide range of salinities and other water quality conditions. In the case of A. pallida and A. pulchella, their hardiness coupled with their ability to reproduce very quickly and out-compete other species in culture gives these anemones the status of pest from the perspective of coral reef aquarium hobbyists. These very characteristics make them easy to grow in the laboratory and thus they are extensively used as model organisms for scientific study. In this respect, Aiptasia have contributed a significant amount of knowledge regarding cnidarian biology, especially human understanding of cnidarian-algal symbioses, a biological phenomenon crucial to the survival of corals and coral reef ecosystems. The dependence of coral reefs on the health of the symbiosis is dramatically illustrated by the devastating effects experienced by corals due to the loss of algal symbionts in response to environmental stress, a phenomenon known as coral bleaching.

<i>Pocillopora meandrina</i> Species of coral

Pocillopora meandrina, commonly known as Cauliflower coral, is a species of coral occurring in the Indo-Pacific and Pacific oceans. This coral lives in shallow reef environments.

<i>Pocillopora</i> Genus of corals

Pocillopora is a genus of stony corals in the family Pocilloporidae occurring in the Pacific and Indian Oceans. They are commonly called cauliflower corals and brush corals.

<span class="mw-page-title-main">Pocilloporidae</span> Family of corals

The Pocilloporidae are a family of stony corals in the order Scleractinia occurring in the Pacific and Indian Oceans.

Vitrella brassicaformis (CCMP3155) is a unicellular alga belonging to the eukaryotic supergroup Alveolata. V. brassicaformis and its closest known relative, Chromera velia, are the only two currently described members of the phylum Chromerida, which in turn constitutes part of the taxonomically unranked group Colpodellida. Chromerida is phylogenetically closely related to the phylum Apicomplexa, which includes Plasmodium, the agent of malaria. Notably, both V. brassicaformis and C. velia are photosynthetic, each containing a complex secondary plastid. This characteristic defined the discovery of these so-called 'chromerids,' as their photosynthetic capacity positioned them to shed light upon the evolution of Apicomplexa's non-photosynthetic parasitism. Both genera lack chlorophyll b or c; these absences link the two taxonomically, as algae bearing only chlorophyll a are rare amid the biodiversity of life. Despite their similarities, V. brassicaformis differs significantly from C. velia in morphology, lifecycle, and accessory photosynthetic pigmentation. V. brassicaformis has a green color, with a complex lifecycle involving multiple pathways and a range of sizes and morphologies, while Chromera has a brown color and cycles through a simpler process from generation to generation. The color differences are due to differences in accessory pigments.

<i>Isopora palifera</i> Species of coral

Isopora palifera is a species of stony coral in the family Acroporidae. It is a reef building coral living in shallow water and adopts different forms depending on the water conditions where it is situated. It is found in the Western Indo-Pacific Ocean as far east as Australia.

<i>Micromussa lordhowensis</i> Species of coral

Micromussa lordhowensis, previously known as the Acan Lord, is a species of stony coral in the family Lobophylliidae. It is a widespread and common coral with large polyps occurring on shallow reefs in the Indo-Pacific Ocean. It was originally classified under the genus Acanthastrea, and reclassified under the genus Micromussa in 2016.

<i>Pocillopora verrucosa</i> Species of coral

Pocillopora verrucosa, commonly known as cauliflower coral, rasp coral, or knob-horned coral, is a species of stony coral in the family Pocilloporidae. It is native to tropical and subtropical parts of the Indian and Pacific Oceans.

<i>Acropora millepora</i> Species of coral

Acropora millepora is a species of branching stony coral native to the western Indo-Pacific where it is found in shallow water from the east coast of Africa to the coasts of Japan and Australia. It was first described in 1834 by Christian Gottfried Ehrenberg as Heteropora millepora.

<i>Litophyton arboreum</i> Species of coral

Litophyton arboreum, also known as broccoli coral, is a common soft coral (octocoral) found from the Red Sea to the Western Pacific. It grows up to 80 cm, usually on seaward reef slopes or hard bottoms. The color of L. arboreum varies from pale olive-green to yellow or grey. L. arboreum are anthozoans in the order Alcyonacea in the family Nephtheidae. The L. arboreum was originally classified in 1775 by Peter Forsskål, a Swedish Linnaean naturalist. As of 2016, the entire genus Litophyton was reclassified using phylogenetic data, in contrast to its original morphological classification.

Durusdinium trenchii is an endosymbiotic dinoflagellate, a unicellular alga which commonly resides in the tissues of tropical corals. It has a greater tolerance to fluctuations in water temperatures than do other species in the genus. It was named for the marine biologist R. K. Trench.

<i>Seriatopora hystrix</i> Species of coral

Seriatopora hystrix is a species of colonial stony coral in the family Pocilloporidae. It forms a branching clump and is commonly known as thin birdsnest coral. It grows in shallow water on fore-reef slopes or in sheltered lagoons, the type locality being the Red Sea. It is native to East Africa, the Red Sea and the western Indo-Pacific region. It is a common species and the International Union for Conservation of Nature has assessed its conservation status as being of "least concern".

<i>Anthelia glauca</i> Species of coral

Anthelia glauca, the giant anthelia, is a species of soft coral in the family Xeniidae. It is a colonial species and is found in shallow water in the Indo-Pacific region.

<i>Pocillopora elegans</i> Species of coral

Pocillopora elegans is a species of colonial stony coral in the family Pocilloporidae. It is native to tropical and subtropical parts of the western, central and eastern Pacific Ocean. It is susceptible to bleaching and various coral diseases and the International Union for Conservation of Nature (IUCN) has listed it as a "vulnerable species".

<i>Pocillopora capitata</i> Species of coral

Pocillopora capitata, commonly known as the Cauliflower coral, is a principal hermatypic coral found in the Eastern Tropical Pacific. P. capitata is a colonial species of stony coral of the class Anthozoa, the order Scleractinia, and the family Pocilloporidae. This species was first documented and described by Addison Emery Verrill in 1864. P. capitata is threatened by many of the effects of climate change, including — but not limited to — increased temperatures that cause bleaching and hypoxic conditions.

Miguel Mies is a Brazilian academic, oceanographer, and researcher. He is currently a professor at the Oceanographic Institute of the University of São Paulo (IO-USP) and leads the Coral Reefs and Climate Change Laboratory (LARC). He also serves as the research coordinator for the Coral Vivo Project and is the vice president of the Coral Vivo Institute.

References

  1. 1 2 3 4 5 6 Hoeksema, B.W.; Rogers, A.; Quibilan, M.C. (2014). "Pocillopora damicornis". IUCN Red List of Threatened Species . 2014: e.T133222A54216898. doi: 10.2305/IUCN.UK.2014-1.RLTS.T133222A54216898.en . Retrieved 12 November 2021.
  2. 1 2 3 van der Land, Jacob (2018). "Pocillopora damicornis (Linnaeus, 1758)". WoRMS. World Register of Marine Species . Retrieved 2018-08-16.
  3. 1 2 Richmond, R. H. (1987). "Energetics, competency, and long-distance dispersal of planula larvae of the coral Pocillopora damicornis". Marine Biology. 93 (4): 527–533. Bibcode:1987MarBi..93..527R. doi:10.1007/BF00392790. S2CID   84571244.
  4. Sier, C. J. S.; Olive, P. J. W. (1994). "Reproduction and reproductive variability in the coral Pocillopora verrucosa from the Republic of Maldives". Marine Biology. 118 (4): 713–720. Bibcode:1994MarBi.118..713S. doi:10.1007/BF00347520. S2CID   84616164.
  5. Chen, Chaolun Allen; Wang, Jih-Terng; Fang, Lee-Shing; Yang, Ya-Wen (2005). "Fluctuating algal symbiont communities in Acropora palifera (Scleractinia: Acroporidae) from Taiwan" (PDF). Marine Ecology Progress Series . 295: 113–121. Bibcode:2005MEPS..295..113C. doi: 10.3354/meps295113 .
  6. Franklin EC, Stat M, Pochon X, Putnam HM, Gates RD (2012) GeoSymbio: a hybrid, cloud-based web application of global geospatial bioinformatics and ecoinformatics forSymbiodinium–host symbioses. Molecular Ecology Resources 12:369-373. doi: 10.1111/j.1755-0998.2011.03081.x. https://sites.google.com/site/geosymbio/database