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Porites cylindrica

January 01, 1970

Porites cylindrica, commonly known as Hump coral, is a stony coral belonging to the subclass Hexacorallia in the class Anthozoa. Hexacorallia differ from other subclasses in that they have 6 or fewer axes of symmetry.[2] Members of this class possess colonial polyps which can be reef-building, secreting a calcium carbonate skeleton.[3] They are dominant in both inshore reefs and midshelf reefs.[4]

Porites cylindrica
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Cnidaria
Class: Hexacorallia
Order: Scleractinia
Family: Poritidae
Genus: Porites
Species:
P. cylindrica
Binomial name
Porites cylindrica
(Dana, 1846)
Synonyms
List
  • Porites andrewsi Vaughan, 1918
  • Porites capricornis Rehberg, 1892
  • Porites galeata Nemenzo, 1955
  • Porites levis Dana, 1846
  • Porites planocella Nemenzo, 1955

Description edit

P. cylindrica is a hermatypic (reef-building) coral that can grow to a few square meters wide and form micro-atolls.[5] They are typically cream colored, yellow, blue, pale brown or green.[5] Like all stony corals, P. cylindrica consists of very small polyps (1-3mm) that secrete calcium carbonate, with which they build a skeleton. Over time, entire colonies of reef-building corals can grow large, (weighing several tons), and create structural habitats.[3] They are a branching coral, which are characterized by having numerous branches, some with secondary branches, growing in different directions.[6] These types of corals tend to grow faster, allowing them to better find favorable microenvironments than corals with slower growth forms. However, their branching growth form also means that they are more vulnerable to breakage and injury.[4]

Distribution and habitat edit

P. cylindrica is common to abundant in shallow water areas 1–11 meters deep.[1][7] They have also been observed 20 meters below surface waters.[1] P. Cylindrica is found in back reefs and lagoons located in the waters of the oceanic West Pacific, Australia, the South China Sea, Japan, South-east Asia and the Indian Ocean.[1]

Biology edit

Porites cylindrica is a gonochoric coral species, featuring distinct male and female colonies, releasing sperm and egg respectively, as opposed to releasing sperm-egg bundles.[8] Like all shallow-dwelling corals, P. cylindrica gametes are buoyant, and float to the surface of the water to merge.[9] The brooding coral internally fertilizes its eggs, which contain the algae zooxanthellae evenly distributed within, allowing the new coral larvae to be born having already established a relationship with their symbiotic algal partners.[8] The larvae then settle on hard substrate, where they develop into a coral polyp. Once fully developed, the coral polyp replicates itself through budding, dividing into two genetically identical polyps and growing in size and number whilst secreting calcium carbonate in order to form the coral's skeleton, eventually forming into a proper coral colony.[9] However, P. cylindrica relies primarily on asexual reproduction through fragmentation, with new corals growing and developing from pieces of coral broken off from a "parent" coral. Once settled on hard substrate, the polyps making up the broken coral grow and develop naturally and eventually mature into a coral colony that is genetically identical to the parent.[4]

P. cylindrica, like all corals, is sessile, capturing food particles that are suspended in the water column.[10] They build fields of branching colonies, split into populations of males and females, and grow branches resembling fingers measuring about half an inch thick, typically in a light brown or dark green hue.[11] The coral obtains its nutrients through its mutualistic relationship with the algae zooxanthellae, which acts as the cornerstone for its ecological role. Zooxanthellae, a photosynthetic dinoflagellate, is able to obtain its nutrients from the sun through photosynthesis, turning light energy into chemical energy stored in the form of carbohydrates, which it passes on to the coral polyps it inhabits.[10] As with most shallow coral holobionts, P. cylindrica obtains the rest of its necessary nutrients, such as nitrogen, from detritus caught by the current, and the transfer of energy and nutrients through waste and decomposition from organisms higher up the food chain, like fish and marine mammals.[10]

Ecological Role edit

P. cylindrica, as a reef-building coral, assists in providing key reef habitats for many species of fish, invertebrates, plants, sea turtles, birds, and marine mammals.[3][10] Shallow reef ecosystems also provide coastlines with protection against storms and erosion.[10] They are also economically important, offering a source of food and recreational activities such as fishing, diving, and snorkeling.[10] P. cylindrica is an ideal species for coral rehabilitation efforts because they are able to tolerate environmental extremes and successfully disperse via fragmentation.[4]

Threats edit

P. cylindrica is susceptible to many changes in their surrounding environments, which may pose a threat to its well being and survival. To begin, as carbon dioxide becomes increasingly prevalent in our atmosphere, P. cylindrica struggles to adapt. When exposed to elevated levels of carbon dioxide, their rates of respiration and photosynthesis experience a significant decrease. Additionally, zooxanthellae densities decline with harmful environmental changes.[12] Zooxanthellae are important members of the coral holobiont, contributing to the construction of the coral's calcium-carbonate skeleton and assisting in health maintenance. As sea water temperatures continue to rise, zooxanthellae struggle to adapt, often resulting in coral bleaching.[13] Sea water temperatures above 34°C pose risks to zooxanthellae populations, which in turn cause the coral to become increasingly susceptible to disease and death.[14] The IUCN Red list of Threathened Species classified P. cylindrica as Near Threatened on January 3, 2008.[15]

References edit

  1. ^ a b c d Sheppard, A.; Fenner, D.; Edwards, A.; Abrar, M.; Ochavillo, D. (2014). "Porites cylindrica". IUCN Red List of Threatened Species. 2014: e.T133496A54274373. doi:10.2305/IUCN.UK.2014-1.RLTS.T133496A54274373.en. Retrieved 15 March 2022.
  2. ^ Light, Sol Felty (2007). The Light and Smith manual : intertidal invertebrates from central California to Oregon. James T. Carlton, Sol Felty Light (Fourth edition, completely revised and expanded ed.). Berkeley, California. ISBN 0-520-23939-3. OCLC 83758750.{{cite book}}: CS1 maint: location missing publisher (link)
  3. ^ a b c "How Do Stony Corals Grow? - Corals: NOAA's National Ocean Service Education". oceanservice.noaa.gov. US Department of Commerce, National Oceanic and Atmospheric Administration. Retrieved 2023-04-15.
  4. ^ a b c d Seebauer, Jessica (2001). "Zoology of Porites cylindrica: potential for use in reef-rehabilitation transplantation efforts" (PDF). SUNY Geneseo Journal of Science and Mathematics. 2 (1): 26–34.
  5. ^ a b Hoeksema, B. (2015). Porites cylindrica Dana, 1846. Accessed through: World Register of Marine Species. Retrieved 23 August 2018.
  6. ^ "Corals: NOAA's National Ocean Service Education". oceanservice.noaa.gov. US Department of Commerce, National Oceanic and Atmospheric Administration. Retrieved 2023-04-15.
  7. ^ The Encyclopedia of Earth (2012). Coral reef zonation. The Encyclopedia of Earth. Retrieved 19 November 2015.
  8. ^ a b Hirose, Mamiko; Hidaka, Michio (1 October 2006). "Early Development of Zooxanthella-containing Eggs of the Corals Porites cylindrica and Montipora digitata: The Endodermal Localization of Zooxanthellae". Zoological Science. 23 (10): 873–881.
  9. ^ a b "How Do Corals Reproduce - Corals: NOAA's National Ocean Service Education". oceanservice.noaa.gov. US Department of Commerce, National Oceanic and Atmospheric Administration. Retrieved 2023-04-15.
  10. ^ a b c d e f Sheppard, A.; Fenner, D.; Edwards, A.; Abrar, M.; Ochavillo, D. "Coral reef ecosystems". www.noaa.gov. Retrieved 2023-04-15.
  11. ^ Fenner, Douglas; Sudek (2016). Common Corals of American Samoa. Coral Reef Advisory Group. p. 25.
  12. ^ Hii, Yii-Siang; Ambok Bolong, Abol Munafi; Yang, Teng-Teng; Liew, Hock-Chark (2010-02-28). "Effect of Elevated Carbon Dioxide on Two Scleractinian Corals: Porites cylindrica (Dana, 1846) and Galaxea fascicularis (Linnaeus, 1767)". Journal of Marine Sciences. 2009: e215196. doi:10.1155/2009/215196. ISSN 2633-4666.
  13. ^ Mydlarz, Laura; McGinty, Elizabeth; Harvell, Drew (15 March 2010). "What are the physiological and immunological responses of coral to climate warming and disease?". Journal of Experimental Biology. 213 (6): 934–945.
  14. ^ Nordemar, I.; Nyström, M.; Dizon, R. (2003-04-01). "Effects of elevated seawater temperature and nitrate enrichment on the branching coral Porites cylindrica in the absence of particulate food". Marine Biology. 142 (4): 669–677. doi:10.1007/s00227-002-0989-0. ISSN 1432-1793.
  15. ^ "Porites cylindrica". The IUCN Red list of Threatened Species. Retrieved 22 September 2023.


 

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January 01, 1970
porites, cylindrica, commonly, known, hump, coral, stony, coral, belonging, subclass, hexacorallia, class, anthozoa, hexacorallia, differ, from, other, subclasses, that, they, have, fewer, axes, symmetry, members, this, class, possess, colonial, polyps, which,. Porites cylindrica commonly known as Hump coral is a stony coral belonging to the subclass Hexacorallia in the class Anthozoa Hexacorallia differ from other subclasses in that they have 6 or fewer axes of symmetry 2 Members of this class possess colonial polyps which can be reef building secreting a calcium carbonate skeleton 3 They are dominant in both inshore reefs and midshelf reefs 4 Porites cylindrica Conservation status Near Threatened IUCN 3 1 1 Scientific classification Domain Eukaryota Kingdom Animalia Phylum Cnidaria Class Hexacorallia Order Scleractinia Family Poritidae Genus Porites Species P cylindrica Binomial name Porites cylindrica Dana 1846 Synonyms ListPorites andrewsi Vaughan 1918 Porites capricornis Rehberg 1892 Porites galeata Nemenzo 1955 Porites levis Dana 1846 Porites planocella Nemenzo 1955 Contents 1 Description 2 Distribution and habitat 3 Biology 4 Ecological Role 5 Threats 6 ReferencesDescription editP cylindrica is a hermatypic reef building coral that can grow to a few square meters wide and form micro atolls 5 They are typically cream colored yellow blue pale brown or green 5 Like all stony corals P cylindrica consists of very small polyps 1 3mm that secrete calcium carbonate with which they build a skeleton Over time entire colonies of reef building corals can grow large weighing several tons and create structural habitats 3 They are a branching coral which are characterized by having numerous branches some with secondary branches growing in different directions 6 These types of corals tend to grow faster allowing them to better find favorable microenvironments than corals with slower growth forms However their branching growth form also means that they are more vulnerable to breakage and injury 4 Distribution and habitat editP cylindrica is common to abundant in shallow water areas 1 11 meters deep 1 7 They have also been observed 20 meters below surface waters 1 P Cylindrica is found in back reefs and lagoons located in the waters of the oceanic West Pacific Australia the South China Sea Japan South east Asia and the Indian Ocean 1 Biology editPorites cylindrica is a gonochoric coral species featuring distinct male and female colonies releasing sperm and egg respectively as opposed to releasing sperm egg bundles 8 Like all shallow dwelling corals P cylindrica gametes are buoyant and float to the surface of the water to merge 9 The brooding coral internally fertilizes its eggs which contain the algae zooxanthellae evenly distributed within allowing the new coral larvae to be born having already established a relationship with their symbiotic algal partners 8 The larvae then settle on hard substrate where they develop into a coral polyp Once fully developed the coral polyp replicates itself through budding dividing into two genetically identical polyps and growing in size and number whilst secreting calcium carbonate in order to form the coral s skeleton eventually forming into a proper coral colony 9 However P cylindrica relies primarily on asexual reproduction through fragmentation with new corals growing and developing from pieces of coral broken off from a parent coral Once settled on hard substrate the polyps making up the broken coral grow and develop naturally and eventually mature into a coral colony that is genetically identical to the parent 4 P cylindrica like all corals is sessile capturing food particles that are suspended in the water column 10 They build fields of branching colonies split into populations of males and females and grow branches resembling fingers measuring about half an inch thick typically in a light brown or dark green hue 11 The coral obtains its nutrients through its mutualistic relationship with the algae zooxanthellae which acts as the cornerstone for its ecological role Zooxanthellae a photosynthetic dinoflagellate is able to obtain its nutrients from the sun through photosynthesis turning light energy into chemical energy stored in the form of carbohydrates which it passes on to the coral polyps it inhabits 10 As with most shallow coral holobionts P cylindrica obtains the rest of its necessary nutrients such as nitrogen from detritus caught by the current and the transfer of energy and nutrients through waste and decomposition from organisms higher up the food chain like fish and marine mammals 10 Ecological Role editP cylindrica as a reef building coral assists in providing key reef habitats for many species of fish invertebrates plants sea turtles birds and marine mammals 3 10 Shallow reef ecosystems also provide coastlines with protection against storms and erosion 10 They are also economically important offering a source of food and recreational activities such as fishing diving and snorkeling 10 P cylindrica is an ideal species for coral rehabilitation efforts because they are able to tolerate environmental extremes and successfully disperse via fragmentation 4 Threats editP cylindrica is susceptible to many changes in their surrounding environments which may pose a threat to its well being and survival To begin as carbon dioxide becomes increasingly prevalent in our atmosphere P cylindrica struggles to adapt When exposed to elevated levels of carbon dioxide their rates of respiration and photosynthesis experience a significant decrease Additionally zooxanthellae densities decline with harmful environmental changes 12 Zooxanthellae are important members of the coral holobiont contributing to the construction of the coral s calcium carbonate skeleton and assisting in health maintenance As sea water temperatures continue to rise zooxanthellae struggle to adapt often resulting in coral bleaching 13 Sea water temperatures above 34 C pose risks to zooxanthellae populations which in turn cause the coral to become increasingly susceptible to disease and death 14 The IUCN Red list of Threathened Species classified P cylindrica as Near Threatened on January 3 2008 15 References edit a b c d Sheppard A Fenner D Edwards A Abrar M Ochavillo D 2014 Porites cylindrica IUCN Red List of Threatened Species 2014 e T133496A54274373 doi 10 2305 IUCN UK 2014 1 RLTS T133496A54274373 en Retrieved 15 March 2022 Light Sol Felty 2007 The Light and Smith manual intertidal invertebrates from central California to Oregon James T Carlton Sol Felty Light Fourth edition completely revised and expanded ed Berkeley California ISBN 0 520 23939 3 OCLC 83758750 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link a b c How Do Stony Corals Grow Corals NOAA s National Ocean Service Education oceanservice noaa gov US Department of Commerce National Oceanic and Atmospheric Administration Retrieved 2023 04 15 a b c d Seebauer Jessica 2001 Zoology of Porites cylindrica potential for use in reef rehabilitation transplantation efforts PDF SUNY Geneseo Journal of Science and Mathematics 2 1 26 34 a b Hoeksema B 2015 Porites cylindrica Dana 1846 Accessed through World Register of Marine Species Retrieved 23 August 2018 Corals NOAA s National Ocean Service Education oceanservice noaa gov US Department of Commerce National Oceanic and Atmospheric Administration Retrieved 2023 04 15 The Encyclopedia of Earth 2012 Coral reef zonation The Encyclopedia of Earth Retrieved 19 November 2015 a b Hirose Mamiko Hidaka Michio 1 October 2006 Early Development of Zooxanthella containing Eggs of the Corals Porites cylindrica and Montipora digitata The Endodermal Localization of Zooxanthellae Zoological Science 23 10 873 881 a b How Do Corals Reproduce Corals NOAA s National Ocean Service Education oceanservice noaa gov US Department of Commerce National Oceanic and Atmospheric Administration Retrieved 2023 04 15 a b c d e f Sheppard A Fenner D Edwards A Abrar M Ochavillo D Coral reef ecosystems www noaa gov Retrieved 2023 04 15 Fenner Douglas Sudek 2016 Common Corals of American Samoa Coral Reef Advisory Group p 25 Hii Yii Siang Ambok Bolong Abol Munafi Yang Teng Teng Liew Hock Chark 2010 02 28 Effect of Elevated Carbon Dioxide on Two Scleractinian Corals Porites cylindrica Dana 1846 and Galaxea fascicularis Linnaeus 1767 Journal of Marine Sciences 2009 e215196 doi 10 1155 2009 215196 ISSN 2633 4666 Mydlarz Laura McGinty Elizabeth Harvell Drew 15 March 2010 What are the physiological and immunological responses of coral to climate warming and disease Journal of Experimental Biology 213 6 934 945 Nordemar I Nystrom M Dizon R 2003 04 01 Effects of elevated seawater temperature and nitrate enrichment on the branching coral Porites cylindrica in the absence of particulate food Marine Biology 142 4 669 677 doi 10 1007 s00227 002 0989 0 ISSN 1432 1793 Porites cylindrica The IUCN Red list of Threatened Species Retrieved 22 September 2023 nbsp This Scleractinia related article is a stub You can help Wikipedia by expanding it vte Retrieved from https en wikipedia org w index php title Porites cylindrica amp oldid 1219781507, wikipedia, wiki, book, books, library,

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