Difference between revisions of "Coral reefs"
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− | Not all corals are reef building species. There are also hard corals existing as single, solitary polyps. Some temperate species form small colonies only. Corals that lack the hard outer coverings of calcium carbonate are '''soft corals'''. Cold water corals lack the symbiontic | + | Not all corals are reef building species. There are also hard corals existing as single, solitary polyps. Some temperate species form small colonies only. Corals that lack the hard outer coverings of calcium carbonate are '''soft corals'''. Cold water corals lack the symbiontic Dinoflagellates. the species without zoooxanthellae is called '''ahermatypic'''. |
==Zonation== | ==Zonation== |
Revision as of 13:02, 31 January 2013
This article describes the habitat of the coral reefs. It is one of the sub-categories within the section dealing with biodiversity of marine habitats and ecosystems. It gives an overview of the formation, distribution, biology, zonation, requirements for development, biota and threats.
Contents
Introduction
Coral reefs are one of the most diverse ecosystems in the world. The organisms belong to the Phylum Cnidaria. The best known type of corals is the one living in clear, warm tropical waters with plenty of colourful fishes. This is a rocky, shallow water type. The water is clear because of the low concentrations of nutrients. But there are also deep water corals that live in dark cold waters and soft corals that live in shallow, cold waters. They are wave resistant rock structures, created by calcium carbonate -secreting animals and plants.
Formation
The formation of corals begins when free-swimming coral larvae attach to submerged rocks or other hard substrate along the edges of islands or continents. The reef expands and will form an atoll, barrier or fringing reef. These 3 are the main reef types. Atolls are circular or oval coral reefs that partially or completely encircle a lagoon. A barrier reef is a reef that borders the shoreline over a long distance. They are separated from the adjacent land mass by a lagoon. A fringing reef forms borders along the shoreline and the surrounding islands, but at shorter distance than barrier reefs. It is directly attached to the land. This is the most common type of coral reefs [2]. Other special reef arrangements are apron, patch, ribbon, table and bank reefs. Apron reefs are very similar to fringing reefs. Both are extending downward from the land margin, the former more gently sloping than the latter. Patch reefs are small, isolated outcrops of coral surrounded by sand and/or seagrass, and may form part of a fringing reef system. Ribbon reefs are the small and long components of a barrier or are connected to an atoll lagoon. Table reefs are future atolls, but are not yet connected to a lagoon. At last, bank reefs are similar to the patch, but are larger and often hemispherical. [3]
Coral reefs are also among the oldest habitats in the ocean. They have slow growth rates and it may take up to 10,000 years for a coral reef to fully develop from the first colonising larvae [4]. The different types all share similarities in their biogeographic profiles. Horizontal and vertical zonation depends on bottom topography, depth, wave and current strength, light, temperature and suspended sediments.
Distribution
The warm water corals are found in the tropics (between 30°N and 30°S) in areas where the water is clear and over 18°C. The maximum depth for warm water corals is generally around 60 meters.
Some species of coral are found in all oceans of the world. Cold water corals have been found in places as Antarctica, Australia, Canada, Ecuador, Japan, New Zealand, Europe and the United States.
Biology
The principal reef-building organisms are hard coral (scleractinian corals). The formation starts with a larva known as planula that settles down and attaches itself to a hard substrate. Then the larva develops into a coral polyp and secretes calcium carbonate around its body. The reproduction is by budding, an asexual process. As the asexual reproduction continues, the colony grows. Some polyps in the colony develop gonads and are able to reproduce sexually. These polyps release sperm and eggs in the surrounding water. To help with fertilization, both eggs and sperm cells have protein molecules on their surfaces to identify other cells of the same species. [8]
The coral polyp has a sac-like structure that is protected by a rigid calcium-carbonate exoskeleton. This is called a corallite. The bottom of the corallite is divided into vertical segments or septa. At the top, the polyp has an opening that is a combined mouth and anus. This leads to the gut. The opening is surrounded by tentacles with mucus secreting cells for catching prey. Zooxanthellae (Dinoflagellates) are embedded in the outer layer of the coral’s flesh (epidermis), giving the coral it's color. This causes a stable environment for them. The cells are abundant and can represent up to 75% of the tissue weight. The zooxanthellae require sunlight for photosynthesis. They provide nutrients to the polyps and reduce the level of carbon dioxide. This makes the conditions for the formation of skeletons more suitable. In turn, the zooxanthellae get a suitable habitat. The coral species which harbour the zooxanthellae are called hermatypic.
Not all corals are reef building species. There are also hard corals existing as single, solitary polyps. Some temperate species form small colonies only. Corals that lack the hard outer coverings of calcium carbonate are soft corals. Cold water corals lack the symbiontic Dinoflagellates. the species without zoooxanthellae is called ahermatypic.
Zonation
On the seaward side, the reef rises from the lower depths of the ocean to a level just at or just below the surface of the water. This is called the reef front or fore-reef. The slope of this area can be either gentle or steep. It sometimes forms a vertical wall known as a drop-off. But generally, the reef front forms finger-like arrangements called spur and groove formation. It distributes the wave energy and prevents damage to the reef and its inhabitants. The grooves are sand-filled pockets and allow sediments to be channelled down and away from the coral surface. In this way, it provides a habitat for many species of burrowing organisms. The reef crest is the highest point of the reef. More landward, the reef flat or back reef is formed. This area has a high degree of variability. The bottom of the reef flat consists of rock, sand, coral cobble or combinations of these. Seagrasses are commonly found in this area. The reef ends at the shoreline or descends into the lagoon.
The different areas support different species of corals and organisms. On the reef front, dome-shaped, massive brain corals (Diploria) and columnar pillar corals (Dendrogyra) are found. Below this region, platelike species such as Pectinia, Pavona and Agaricia are found. Higher upon the reef, branched species of coral are found. This is because of the wave stress. A coral that occurs in the region is elkhorn coral (Acropora palmata). Behind the reef front, more protected areas are occupied with more delicate species such as staghorn coral (Acropora cervicornis), finger (Stylophora), cluster (Pocillophora) and lace corals (Pocillophora damicornis). In shallow, calmer waters away from the reef front, small species such as rose (Meandrina, Manicina), flower (Mussa, Eusmilia) and star (Montastraea) corals are found. [12]
Elkhorn coral (Acropora palmata) [13]
Staghorn coral (Acropora cervicornis) [14]
Brain coral (Diploria strigosa) [15]
Pillar coral (Dendrogyra cylindricus) [16]
Requirements for development
Reef-building, warm water corals need the following conditions to grow [17] :
- Clear water : this allows light to reach the symbiotic algae living within the tissue of the polyp
- Light-absorbing adaptations enable some species to live in dim blue light
- Warm ocean temperatures of more than 18°C
- Strong wave action: supply of food, nutrients and oxygen, distribution of larvae and prevention of sediment settlement on the reefs
- Precipitation of calcium necessary to form skeletons. Water temperatures and salinity have to be high and carbon dioxide concentrations have to be low.
- Mostly hard substrate
Cold water corals do not need light to function. They obtain their nutrients and energy completely from trapping plankton and organic particles in passing currents. They use their tentacles to trap the particles. They can include stone corals, true soft corals, black corals and lace corals. Most of them do not build reefs, but grow in thick quantities.
All cold water corals are extremely fragile and vulnerable to physical disturbances due to their lifestyle. Attached species cannot escape disturbances and their structures are extremely brittle. They also grow extremely slow, so it takes a long time to rebuild the reef when it is damaged. An additional disadvantage is that they have not yet developed responses to fast-occurring changes in their environment, because they rarely have been subject to sudden changes. [18]
Cold water corals such as Lophelia are true hard corals. They also produce calcium carbonate skeletons. It is mainly found at depths between 200 and 1,000 meters along continental shelves, in fjords and around offshore submarine banks, vents and seamounts. The suitable temperature ranges from 4°C to 13°C. Lophelia is not found in the polar regions. [19] Madrepora oculata is another cold water coral species. This is found in the north-east and western Atlantic and the Mediterranean Sea.
Biota
Coral reefs provide a structured habitat with a lot of niches for many species. It can play a role as shelter, nursery ground, Many reef animals are sessile or move very slowly. Sponges are found at deeper parts of the reef front. Smaller animals are found in the waters behind the reef. Anemones remain fixed in one place by a muscular, mucus-secreting basal disk. If the conditions become unfavourable, some species can release themselves and crawl over the bottom, searching for a more suitable area. Fanworms or featherduster worms are represented by two families: the serpulid worms, which produce tubes of calcium carbonate, and sabellid worms, which form tubes of sand and small particles pasted together by mucus. Organisms that can be found on the branches of the coral reefs are: fishes, lobsters, crustaceans, starfish, molluscs, brittlestars, sea pens, sea urchins and squats. Sponges, bryozoans, hydroids, and some other coral species are found on the coral itself. The octopus is one of the most formidable predators. It has a well-developed nervous system, can rapidly change its colour in response to its background (camouflage) or as a social signal and very sharp eyesight. They have the ability to squeeze through small spaces where potential predators cannot gain access. Although the octopus is very well adapted to the environment, the moray eel is the dominant nocturnal predator. They live in cracks, crevices or holes. At night, they come out to feed on shrimps, crabs, octopuses and other fishes. During the day, the barracuda takes it place. [20]
Moray eel [21]
Common octopus (Octopus vulgaris) [22]
Barracuda (Sphyraena barracuda) [23]
Brittlestar [24]
Sea pen [25]
Serpulid worm (Serpula columbiana) [26]
Threats
Natural causes are [5]:
- Storms and tidal emersions
- El Niño: increased sea surface temperatures, decreased sea level and increased salinity from altered rainfall
- Predation by fishes, marine worms, barnacles, crabs, snails and sea stars
- Diseases in response to biological stress (bacteria, viruses and fungi) and other stress factors (increased sea surface temperature, ultraviolet radiation, pollutants)
- Dust outbreaks
Human induced causes are [5]:
- Coral bleaching
- Pollution from land-based runoff, dredging, coastal development, agriculture, deforestation , sewage treatments, leakage (fuels, anti-fouling paints and coatings , other chemicals)
- Land development
- Fishing methods:trawling, dynamite, cyanide
- Collecting living corals for aquariums
- Mining for building materials
- Tourism
- Ocean acidification
References
- ↑ http://en.wikipedia.org/wiki/Coral_reef
- ↑ NOAA National Ocean Service Education: Corals
- ↑ http://www.coral-reefs.org
- ↑ Barnes R.D. 1987. Invertebrate Zoology. Fifth edition. Fort Worth, TX. Harcourt Brace Jovanovich College Publishers. 92-96, 127-134, 149-162.
- ↑ 5.0 5.1 5.2 5.3 5.4 5.5 http://www.coral-reefs.org Cite error: Invalid
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- ↑ http://maps.grida.no/go/graphic/distribution-of-coldwater-and-tropical-coral-reefs - UNEP/GRID-Arendal - Hugo Ahlenius
- ↑ Karleskint G. 1998. Introduction to marine biology. Harcourt Brace College Publishers. p.378
- ↑ http://www.reef.crc.org.au/publications/brochures/Biologybleaching.htm - Michael ten Lohuis
- ↑ NOAA
- ↑
- ↑ Karleskint G. 1998. Introduction to marine biology. Harcourt Brace College Publishers. p.378
- ↑ http://www.nmfs.noaa.gov/pr/species/invertebrates/elkhorncoral.htm
- ↑ http://sero.nmfs.noaa.gov/pr/esa/acropora.htm - W. Jaap
- ↑ http://nl.wikipedia.org/wiki/Hersenkoraal - Albert Kok
- ↑ http://en.wikipedia.org/wiki/Dendrogyra - NOAA
- ↑ http://www.seaworld.org/infobooks/coral/habdiscr.html
- ↑ WWF. 2001. Cold water corals: fragile havens in the deep. p. 12
- ↑ http://www.ices.dk/marineworld/deepseacoral.asp
- ↑ Karleskint G. 1998. Introduction to marine biology. Harcourt Brace College Publishers. p.378
- ↑ http://en.wikipedia.org/wiki/Moray_eel
- ↑ http://en.wikipedia.org/wiki/Octopus - Albert Kok
- ↑ NOAA
- ↑ http://en.wikipedia.org/wiki/Brittle_star
- ↑ NOAA
- ↑ http://week.divebums.com/2006/Aug21-2006/index.html
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