In a previous poll, calcium carbonate was the answer. Now, we will explain what is it.
Calcium carbonate is a chemical compound. It is a common substance found as rock in all parts of the world, and is the main component of shells of marine organisms, snails, and eggshells. Calcium carbonate is the active ingredient in agricultural lime, and is usually the principal cause of hard water. It is commonly used medicinally as a calcium supplement or as an antacid, but high consumption can be hazardous.
Thursday, September 11
The Belize Barrier Reef
Once, my father said that evern if one remembers the first, he will not remember the second so well. Same goes for the 3rd and 4th.
The Biggest Reef is the Great Barrier Reef, but what about the second?
*blank stares,puzzled look on faces*
The...Belize Barrier Reef!
It is a series of coral reefs straddling the coast of Belize .The Belize Barrier Reef is a 300 km (185 miles) section of the Mesoamerican Barrier Reef System which is continuous from Cancun on the northeast tip of the Yucatan Peninsula of Mexico and continues through to offshore Guatemala, making it the second largest coral reef system in the world after the Great Barrier Reef in Australia. It is Belize's top tourist destination, attracting almost half of its 260,000 visitors, and vital to its fishing industry .
Charles Darwin described it as "the most remarkable reef in the West Indies" in 1842.
The Belize Barrier Reef is home to a large diversity of plants and animals, one of the most diverse ecosystems of the world:
70 hard coral species
36 soft coral species
500 species of fish
hundreds of invertebrate species
With 90% of the reef still needing to be researched, it is estimated that only 10% of all species has been discovered .
The Biggest Reef is the Great Barrier Reef, but what about the second?
*blank stares,puzzled look on faces*
The...Belize Barrier Reef!
It is a series of coral reefs straddling the coast of Belize .The Belize Barrier Reef is a 300 km (185 miles) section of the Mesoamerican Barrier Reef System which is continuous from Cancun on the northeast tip of the Yucatan Peninsula of Mexico and continues through to offshore Guatemala, making it the second largest coral reef system in the world after the Great Barrier Reef in Australia. It is Belize's top tourist destination, attracting almost half of its 260,000 visitors, and vital to its fishing industry .
Charles Darwin described it as "the most remarkable reef in the West Indies" in 1842.
The Belize Barrier Reef is home to a large diversity of plants and animals, one of the most diverse ecosystems of the world:
70 hard coral species
36 soft coral species
500 species of fish
hundreds of invertebrate species
With 90% of the reef still needing to be researched, it is estimated that only 10% of all species has been discovered .
Coral Restoration
Low voltage electrical currents applied through seawater crystallizes dissolved minerals onto steel structures. The resultant white carbonate (aragonite) is the same mineral that makes up natural coral reefs. Corals rapidly colonize and grow at faster than normal rates onto these coated structures. The change in the environment produced by electrical currents also accelerates formation and growth of both chemical limestone rock and the skeletons of corals and other shell-bearing organisms. Within the vicinity of the anode and cathode is a high pH environment which inhibits the growth of filamentous and fleshy algae, which compete with coral for space. This, and the increased growth rates cease when the mineral accretion process stops
The effects of mineral accretion is, however, only temporary. During the process the settled corals have an increased growth rate, and size, and density, but after the process is complete the corallites are comparable to naturally growing corallites in growth rate and density, and are about the same size or slightly smaller.
The effects of mineral accretion is, however, only temporary. During the process the settled corals have an increased growth rate, and size, and density, but after the process is complete the corallites are comparable to naturally growing corallites in growth rate and density, and are about the same size or slightly smaller.
Wednesday, September 10
Endangered Reefs
As the sun's rays filtered through to the seabed, fish could be seen swimming against white sand and near a coral reef at Okinotorishima island, 1,740 kilometers from Tokyo.
In late March, I accompanied a private research team to the nation's southernmost point, and was treated to a dazzling display of nature.
The coral reef lies in shallow waters and has a perimeter of 11 kilometers. The reef encircles two tiny islands, Kitakojima and Higashikojima, which rise only 10 centimeters above sea level at high tide. But they could be lost forever if the greenhouse effect causes the sea level to rise as scientists predict.
This would have a geopolitical effect on Japan, as Okinotorishima is the center of the country's exclusive economic zone in this part of the world.
Created by the accumulation of calcic coral and forams, single-celled protozoans with shells, over a long period of time, the islands would be imperiled if the coral dies off and the reef can no longer protect them from the pounding waves. As an interim measure, a concrete wall has been built to hold back the surging seas.
When I dived, I could only see a few areas where the coral was still thriving.
A member of the research team--an experienced diver--wondered if the coral had been eaten by starfish or had died off because of changes in the sea temperature.
Scientists expect the sea level to rise up to 88 centimeters over the next 100 years. If this prediction proves correct, Okinotorishima will disappear, and Japan will lose an important part of its EEZ.
Therefore, we must not only protect coral from dying off, but also help foster it and develop technology to create new land.
Tuvalu and Maldives are in the same boat as the two low-lying countries consist of coral atolls.
Taken by Daily Yumuiri Online
In late March, I accompanied a private research team to the nation's southernmost point, and was treated to a dazzling display of nature.
The coral reef lies in shallow waters and has a perimeter of 11 kilometers. The reef encircles two tiny islands, Kitakojima and Higashikojima, which rise only 10 centimeters above sea level at high tide. But they could be lost forever if the greenhouse effect causes the sea level to rise as scientists predict.
This would have a geopolitical effect on Japan, as Okinotorishima is the center of the country's exclusive economic zone in this part of the world.
Created by the accumulation of calcic coral and forams, single-celled protozoans with shells, over a long period of time, the islands would be imperiled if the coral dies off and the reef can no longer protect them from the pounding waves. As an interim measure, a concrete wall has been built to hold back the surging seas.
When I dived, I could only see a few areas where the coral was still thriving.
A member of the research team--an experienced diver--wondered if the coral had been eaten by starfish or had died off because of changes in the sea temperature.
Scientists expect the sea level to rise up to 88 centimeters over the next 100 years. If this prediction proves correct, Okinotorishima will disappear, and Japan will lose an important part of its EEZ.
Therefore, we must not only protect coral from dying off, but also help foster it and develop technology to create new land.
Tuvalu and Maldives are in the same boat as the two low-lying countries consist of coral atolls.
Taken by Daily Yumuiri Online
Endangered Fish caught
Stop endangering reef species!
http://www.underwatertimes.com/news.php?article_id=85431027106
http://www.underwatertimes.com/news.php?article_id=85431027106
Why Care?
Coral reefs benefit a healthy world by providing:
Habitat: Home to more than 1 million diverse aquatic species, including thousands of fish speciesIncome: Billions of dollars and millions of jobs in more than 100 countries around the world Food: For commercial fishing enterprises and for people living near coral reefs, especially on small islands Protection: A natural barrier protecting coastal cities, communities, and beaches Medicine: Potential treatments for many of the world's most prevalent and dangerous illnesses and diseases
Habitat: Home to more than 1 million diverse aquatic species, including thousands of fish speciesIncome: Billions of dollars and millions of jobs in more than 100 countries around the world Food: For commercial fishing enterprises and for people living near coral reefs, especially on small islands Protection: A natural barrier protecting coastal cities, communities, and beaches Medicine: Potential treatments for many of the world's most prevalent and dangerous illnesses and diseases
What do Coral Reefs need to survive?
Sunlight: Corals need to grow in shallow water where sunlight can reach them. Corals depend on the zooxanthellae (algae) that grow inside of them for oxygen and other things, and since this algae needs sunlight to survive, corals also need sunlight to survive. Corals rarely develop in water deeper than 165 feet (50 meters).
Clear water: Corals need clear water that lets sunlight through to survive; they don't thrive well when the water is opaque. Sediment and plankton can cloud water, which decreases the amount of sunlight that reaches the zooxanthellae.
Warm water temperature: Reef-building corals require warm water conditions to survive. Different corals living in different regions can withstand various temperature fluctuations. However, corals generally live in water temperatures of 68–90° F or 20–32° C.
Clean water: Corals are sensitive to pollution and sediments. Sediments can settle on coral, blocking out sunlight and smothering coral polyps. Pollution from sewage and fertilizers increase nutrient levels in the water, harming corals. When there are too many nutrients in the water, the ecological balance of the coral community is altered.
Saltwater: Corals need saltwater to survive and require a certain balance in the ratio of salt to water. This is why corals don't live in areas where rivers drain fresh water into the ocean.
Clear water: Corals need clear water that lets sunlight through to survive; they don't thrive well when the water is opaque. Sediment and plankton can cloud water, which decreases the amount of sunlight that reaches the zooxanthellae.
Warm water temperature: Reef-building corals require warm water conditions to survive. Different corals living in different regions can withstand various temperature fluctuations. However, corals generally live in water temperatures of 68–90° F or 20–32° C.
Clean water: Corals are sensitive to pollution and sediments. Sediments can settle on coral, blocking out sunlight and smothering coral polyps. Pollution from sewage and fertilizers increase nutrient levels in the water, harming corals. When there are too many nutrients in the water, the ecological balance of the coral community is altered.
Saltwater: Corals need saltwater to survive and require a certain balance in the ratio of salt to water. This is why corals don't live in areas where rivers drain fresh water into the ocean.
How old are coral reefs?
How old are coral reefs?
The geological record indicates that ancestors of modern coral reef ecosystems were formed at least 240 million years ago. The coral reefs existing today began growing as early as 50 million years ago. Most established coral reefs are between 5,000 and 10,000 years old. Although size sometimes indicates the age of a coral reef, this is not always true. Different species of coral grow at different rates depending on water temperature, oxygen level, amount of turbulence, and availability of food.
The geological record indicates that ancestors of modern coral reef ecosystems were formed at least 240 million years ago. The coral reefs existing today began growing as early as 50 million years ago. Most established coral reefs are between 5,000 and 10,000 years old. Although size sometimes indicates the age of a coral reef, this is not always true. Different species of coral grow at different rates depending on water temperature, oxygen level, amount of turbulence, and availability of food.
Threats Cont.
Threats to Coral Reefs
Water Pollution
Scientists have identified pollution as one of the leading causes of coral reef degradation. This threat comes from a variety of sources. For example, oil, gas and pesticide contamination poisons coral and marine life. Reefs are harmed when human, animal waste and/or fertilizer is dumped into the ocean or when river systems carry these pollutants to reef waters. These pollutants increase the level of nitrogen around coral reefs, causing an overgrowth of algae, which smothers reefs by cutting off their sunlight. Trash also kills coral reef animals. Floating trash can cover reefs, blocking off sunlight that polyps need to survive. Turtles often mistake plastic bags for jellyfish and eat them. Plastic blocks the turtle's digestive tract, causing them to starve to death. Lost or discarded fishing nets - called "ghost nets" - can snag on reefs and strangle thousands of fish, sea turtles and marine mammals.
Sedimentation
Construction along coasts, inshore construction, mining, logging and farming along coastal rivers can all lead to erosion. As a result, particles end up in the ocean and cover coral reefs. This 'smothers' coral and deprives it of the light it needs to survive. Mangrove trees and seagrasses, which normally act as filters for sediment, are also being rapidly destroyed. This has led to an increase in the amount of sediment reaching coral reefs. Mangrove forests are often cut for firewood or removed to create open beaches. They are also destroyed by prawn harvesters to open up areas to create artificial prawn farms.
Coastal Development
Coastal populations have risen, increasing the pressures on coastal resources. This has led to a multitude of problems for coral reefs. In many areas, developers have constructed piers and other structures directly on top of coral reefs. At one time, big cities such as Hong Kong, Singapore, Manila and Honolulu had thriving coral reefs. Long ago, these reefs were destroyed by human pressures. Now, reefs growing near other coastal communities are experiencing the same coral degradation.
Destructive Fishing Practices
Unfortunately, some current fishing practices are destructive and unsustainable. These include cyanide fishing, overfishing and blast fishing. Although cyanide fishing supplies live reef fish for the tropical aquarium market, most fish caught using this method are sold in restaurants, primarily in Asia, where live fish are prized for their freshness. To catch fish with cyanide, fishers dive down to the reef and squirt cyanide in coral crevices and on the fast-moving fish, to stun the fish making them easy to catch. Although some large tropical fish can metabolize cyanide, smaller fish and other marine animals, such as coral polyps, are poisoned by the chemical cloud produced during this process.
Overfishing is another leading cause for coral reef degradation. Often, too many fish are taken from one reef to sustain a population in that area. Poor fishing practices, such as banging on the reef with sticks (muro-ami), destroy coral formations that normally function as fish habitat. In some instances, people fish with explosives (blast fishing), which blast apart the surrounding coral.
Coral Mining
Mining also destroys coral. Sometimes coral pieces are removed for use as bricks or road-fill. Or, sand and limestone from coral reefs are made into cement for new buildings. But corals aren't only removed from their habitat for construction; they are also sold as souvenirs. Coral curios and jewelery are often sold to tourists and exporters in the markets of developing countries.
Careless Tourism
Tourist resorts that empty their sewage directly into the water surrounding coral reefs contribute to coral reef degradation. Wastes kept in poorly maintained septic tanks can also leak into surrounding ground water, eventually seeping out to the reefs. Careless boating, diving, snorkeling and fishing can also damage coral reefs. Whenever people grab, kick, walk on, or stir up sediment in the reefs, they contribute to coral reef destruction. Corals are also harmed or killed when people drop anchors on them or when people collect coral.
Ocean Warming and Coral Bleaching
Global warming is caused by the accumulation of carbon dioxide and other heat-trapping gasses in the atmosphere. These gases act as a blanket, preventing the heat of the sun to escape through our atmosphere. This is primarily due to fossil fuel burning and deforestation and many scientists believe that this is causing sea surface temperatures to rise. Ocean warming is extremely dangerous to coral organisms, which are very sensitive to changes in temperature. Increased water temperatures, which may be linked to global warming, can cause mass coral bleaching. This occurs when coral polyps, stressed by heat or ultraviolet radiation, expel the algae that live within them. These algae, called zooxanthellae (zo-zan-THEL-ee) normally provide the coral with up to 80% of their energy, making zooxanthellae essential for coral survival. The algae are also normally responsible for the color of coral, so when they are expelled, the coral appears white or 'bleached." There is a chance that bleached coral can recover if conditions return to normal. However, in the face of other human-induced pressures, coral have become vulnerable. In many cases, bleached coral colonies die.
Carbon Dioxide
In the past few decades, the amount of carbon dioxide in the air has increased by one-third. This is harmful to corals because increased amounts of carbon dioxide are dissolving into the water, which appears to be dissolving the skeletons of corals. As a result, coral in waters with large amounts of carbon dioxide form weaker skeletons, making them more vulnerable to damage from waves, careless tourists, and destructive fishers.
Ozone Depletion
The destruction of the ozone layer, which accompanies global warming, is caused by the presence of chlorofluorocarbons (CFCs) and other chemicals in the atmosphere. This presence causes the depletion of protective ozone in the atmosphere and increases the intensity and nature of ultraviolet radiation that reaches the earth's surface. Although corals have a natural sunscreen to protect themselves from the tropical sun, most scientists believe that increased levels of ultraviolet radiation damage coral in shallow areas.
Water Pollution
Scientists have identified pollution as one of the leading causes of coral reef degradation. This threat comes from a variety of sources. For example, oil, gas and pesticide contamination poisons coral and marine life. Reefs are harmed when human, animal waste and/or fertilizer is dumped into the ocean or when river systems carry these pollutants to reef waters. These pollutants increase the level of nitrogen around coral reefs, causing an overgrowth of algae, which smothers reefs by cutting off their sunlight. Trash also kills coral reef animals. Floating trash can cover reefs, blocking off sunlight that polyps need to survive. Turtles often mistake plastic bags for jellyfish and eat them. Plastic blocks the turtle's digestive tract, causing them to starve to death. Lost or discarded fishing nets - called "ghost nets" - can snag on reefs and strangle thousands of fish, sea turtles and marine mammals.
Sedimentation
Construction along coasts, inshore construction, mining, logging and farming along coastal rivers can all lead to erosion. As a result, particles end up in the ocean and cover coral reefs. This 'smothers' coral and deprives it of the light it needs to survive. Mangrove trees and seagrasses, which normally act as filters for sediment, are also being rapidly destroyed. This has led to an increase in the amount of sediment reaching coral reefs. Mangrove forests are often cut for firewood or removed to create open beaches. They are also destroyed by prawn harvesters to open up areas to create artificial prawn farms.
Coastal Development
Coastal populations have risen, increasing the pressures on coastal resources. This has led to a multitude of problems for coral reefs. In many areas, developers have constructed piers and other structures directly on top of coral reefs. At one time, big cities such as Hong Kong, Singapore, Manila and Honolulu had thriving coral reefs. Long ago, these reefs were destroyed by human pressures. Now, reefs growing near other coastal communities are experiencing the same coral degradation.
Destructive Fishing Practices
Unfortunately, some current fishing practices are destructive and unsustainable. These include cyanide fishing, overfishing and blast fishing. Although cyanide fishing supplies live reef fish for the tropical aquarium market, most fish caught using this method are sold in restaurants, primarily in Asia, where live fish are prized for their freshness. To catch fish with cyanide, fishers dive down to the reef and squirt cyanide in coral crevices and on the fast-moving fish, to stun the fish making them easy to catch. Although some large tropical fish can metabolize cyanide, smaller fish and other marine animals, such as coral polyps, are poisoned by the chemical cloud produced during this process.
Overfishing is another leading cause for coral reef degradation. Often, too many fish are taken from one reef to sustain a population in that area. Poor fishing practices, such as banging on the reef with sticks (muro-ami), destroy coral formations that normally function as fish habitat. In some instances, people fish with explosives (blast fishing), which blast apart the surrounding coral.
Coral Mining
Mining also destroys coral. Sometimes coral pieces are removed for use as bricks or road-fill. Or, sand and limestone from coral reefs are made into cement for new buildings. But corals aren't only removed from their habitat for construction; they are also sold as souvenirs. Coral curios and jewelery are often sold to tourists and exporters in the markets of developing countries.
Careless Tourism
Tourist resorts that empty their sewage directly into the water surrounding coral reefs contribute to coral reef degradation. Wastes kept in poorly maintained septic tanks can also leak into surrounding ground water, eventually seeping out to the reefs. Careless boating, diving, snorkeling and fishing can also damage coral reefs. Whenever people grab, kick, walk on, or stir up sediment in the reefs, they contribute to coral reef destruction. Corals are also harmed or killed when people drop anchors on them or when people collect coral.
Ocean Warming and Coral Bleaching
Global warming is caused by the accumulation of carbon dioxide and other heat-trapping gasses in the atmosphere. These gases act as a blanket, preventing the heat of the sun to escape through our atmosphere. This is primarily due to fossil fuel burning and deforestation and many scientists believe that this is causing sea surface temperatures to rise. Ocean warming is extremely dangerous to coral organisms, which are very sensitive to changes in temperature. Increased water temperatures, which may be linked to global warming, can cause mass coral bleaching. This occurs when coral polyps, stressed by heat or ultraviolet radiation, expel the algae that live within them. These algae, called zooxanthellae (zo-zan-THEL-ee) normally provide the coral with up to 80% of their energy, making zooxanthellae essential for coral survival. The algae are also normally responsible for the color of coral, so when they are expelled, the coral appears white or 'bleached." There is a chance that bleached coral can recover if conditions return to normal. However, in the face of other human-induced pressures, coral have become vulnerable. In many cases, bleached coral colonies die.
Carbon Dioxide
In the past few decades, the amount of carbon dioxide in the air has increased by one-third. This is harmful to corals because increased amounts of carbon dioxide are dissolving into the water, which appears to be dissolving the skeletons of corals. As a result, coral in waters with large amounts of carbon dioxide form weaker skeletons, making them more vulnerable to damage from waves, careless tourists, and destructive fishers.
Ozone Depletion
The destruction of the ozone layer, which accompanies global warming, is caused by the presence of chlorofluorocarbons (CFCs) and other chemicals in the atmosphere. This presence causes the depletion of protective ozone in the atmosphere and increases the intensity and nature of ultraviolet radiation that reaches the earth's surface. Although corals have a natural sunscreen to protect themselves from the tropical sun, most scientists believe that increased levels of ultraviolet radiation damage coral in shallow areas.
What You Can Do 2
Taken from www.coral.org.
Support the health of the oceans when you shop by understanding how your purchases can impact the environment.
Don't buy coral jewelry - harvesting of red coral for jewelry is deadly, and CORAL supporter Tiffany & Co. claims it’s too precious to wear.
Choose seafood wisely - if you don't know which fish are sustainably harvested and safe to eat, we have guides that can help you make the right choices.
Support coral-friendly businesses - know what to look for when planning your next dive trip or vacation.
Buy a copy of Reef - CORAL receives a portion of the proceeds from every copy sold of this beautiful coffee table book and DVD produced by Scubazoo and published by DK.
Give the gift of coral reefs - CORAL memberships make great gifts for friends and family members who care about our planet.
Shop smart - buy from your favorite stores and save coral reefs at the same time: premier online dive shop Leisure Pro is partnering with CORAL to raise awareness about the importance of saving coral reefs now, and when you shop at your favorite online retailers using iGive, CORAL gets a donation.
Support the health of the oceans when you shop by understanding how your purchases can impact the environment.
Don't buy coral jewelry - harvesting of red coral for jewelry is deadly, and CORAL supporter Tiffany & Co. claims it’s too precious to wear.
Choose seafood wisely - if you don't know which fish are sustainably harvested and safe to eat, we have guides that can help you make the right choices.
Support coral-friendly businesses - know what to look for when planning your next dive trip or vacation.
Buy a copy of Reef - CORAL receives a portion of the proceeds from every copy sold of this beautiful coffee table book and DVD produced by Scubazoo and published by DK.
Give the gift of coral reefs - CORAL memberships make great gifts for friends and family members who care about our planet.
Shop smart - buy from your favorite stores and save coral reefs at the same time: premier online dive shop Leisure Pro is partnering with CORAL to raise awareness about the importance of saving coral reefs now, and when you shop at your favorite online retailers using iGive, CORAL gets a donation.
Coral Reef Alliance
The Coral Reef Alliance is the only international organization working exclusively to save coral reefs. It provides education, tools, and inspiration to help local communities become passionate environmental stewards for the reefs. They develop managed marine protected areas and sustainable businesses to benefit coral reefs and people.
Website:http://www.coral.org/
Website:http://www.coral.org/
Monday, September 8
What people are doing to save sharks
I found a picture of a activist who actually hanged herself on hooks to make a point about longlining.
We are not asking everybody to DO it, but just asking you to do your part in helping to protect the sharks and in turn Save The Reef! here is the website:
Reef Games
This will be edited constantly.
http://www.coralfilm.com/fun.html
http://www.shockwave.com/gamelanding/fishtycoon.jsp
http://www.coralfilm.com/fun.html
http://www.shockwave.com/gamelanding/fishtycoon.jsp
Thursday, September 4
The things coral reefs need to survive
What things do coral need to survive:
Coral reefs need three things to survive. They need warm water, sunlight, and clear, shallow waters. Coral will not grow in waters that are lower than 68 degrees Fahrenheit (20 degrees Celsius). Sunlight and clear, shallow water is needed so that the zooxanthellae in their tissue can photosynthesize. The zooxanthellae transfers some food energy directly to the coral’s polyps. If waters are too deep or too murky, the zooxanthellae will not get enough light to photosynthesize. Photosynthesis is a process that plants go through to make their own sugars and starches. Even though coral is not a plant, it still photosynthesizes to store the energy that it gets from the sugar and starch. This is why you usually don’t find coral below 100 meters (330 feet) deep.
Coral reefs need three things to survive. They need warm water, sunlight, and clear, shallow waters. Coral will not grow in waters that are lower than 68 degrees Fahrenheit (20 degrees Celsius). Sunlight and clear, shallow water is needed so that the zooxanthellae in their tissue can photosynthesize. The zooxanthellae transfers some food energy directly to the coral’s polyps. If waters are too deep or too murky, the zooxanthellae will not get enough light to photosynthesize. Photosynthesis is a process that plants go through to make their own sugars and starches. Even though coral is not a plant, it still photosynthesizes to store the energy that it gets from the sugar and starch. This is why you usually don’t find coral below 100 meters (330 feet) deep.
Relation of coral reefs to mangroves and seagrasses
Did you know that one way to preserve the coral reefs is to first of all preserve our mangroves and seagrasses?
If you can save the latter, you can greatly help to save the reefs as seagrasses and mangroves help to prevent drain waters and trap sediments, thus helping to stabilise the ocean floor. Also, they both have roots that help stabilise the sea bed too.
However sea grasses are very vulnerable to speed boats and water vehicles that have props or rotors. So, if anyone who reads this goes on a boating trip and sees that your boat leaves a trail of mud, STOP! It means that you have gone into somewhere that has seagrass, and so you shoul stop that spinning rotor/propeller and leave the area.
ONE-THIRD of the reefs could face extinction!
Here is a article on how one third of the coral reefs face extinction: http://www.reefrelief.org/scientificstudies/One-third_Extinction.pdf
Different types of coral reefs
These are pictures and characteristics of different types of corals:
- Boulder Star Coral (Montastraea annularis): Colonies grow in irregular mounds. The long thick columns have enlarged dome tops. The surfaces are rough and in plate-like sheets. Size: 1-10 feet. Color: Green to brown, yellow brown and grey. Habitat: 20-70 feet, they are often the most common coral at this medium depth.
- Boulder Brain Coral (Colpophyllia natans): Colonies form large rounded domes. The surface is covered with a convoluted system of ridges and valleys looking very much like a brain. Boulder brain coral is also commonly known as Giant Brain Coral.Size: 2-7ft. Color: Ridges are brown and valleys are green, tan or whitish Habitat: 20-80ft., they are often found at reef tops.
- Elliptical Star Coral (Dichocoenia stokesii): Colonies form small rounded heads or domes. Individual coralites are large, about 0.5-0.75 inches and protrude up about 0.25 inches. They are often elliptical or in a Y shape.Size: 4-15 Inches. Color: Cream to yellow and brown. Habitat: 12-225 feet.
- Elkhorn Coral (Acropora palmata): Colonies form flattened branches that resemble elk horns. The branches orientated parallel to surge direction. Size: 3-12ft. Color: Brown to yellow brown. Habitat: 1-55ft., shallow areas where there is constant wave action and wave movement
Other coral reef found in http://www.reefrelief.org/image_archive/healthy/healthy_index.html
- Boulder Star Coral (Montastraea annularis): Colonies grow in irregular mounds. The long thick columns have enlarged dome tops. The surfaces are rough and in plate-like sheets. Size: 1-10 feet. Color: Green to brown, yellow brown and grey. Habitat: 20-70 feet, they are often the most common coral at this medium depth.
- Boulder Brain Coral (Colpophyllia natans): Colonies form large rounded domes. The surface is covered with a convoluted system of ridges and valleys looking very much like a brain. Boulder brain coral is also commonly known as Giant Brain Coral.Size: 2-7ft. Color: Ridges are brown and valleys are green, tan or whitish Habitat: 20-80ft., they are often found at reef tops.
- Elliptical Star Coral (Dichocoenia stokesii): Colonies form small rounded heads or domes. Individual coralites are large, about 0.5-0.75 inches and protrude up about 0.25 inches. They are often elliptical or in a Y shape.Size: 4-15 Inches. Color: Cream to yellow and brown. Habitat: 12-225 feet.
- Elkhorn Coral (Acropora palmata): Colonies form flattened branches that resemble elk horns. The branches orientated parallel to surge direction. Size: 3-12ft. Color: Brown to yellow brown. Habitat: 1-55ft., shallow areas where there is constant wave action and wave movement
Other coral reef found in http://www.reefrelief.org/image_archive/healthy/healthy_index.html
Wednesday, September 3
What threatens to drive the coral reefs extinct?
Here are the man causes of the destruction of coral reefs, as what iyor.org says
- Over-fishing: Increasing demand for food fish and tourism curios has resulted in over fishing of not only deep-water commercial fish, but key reef species as well. Over-fishing of certain species near coral reefs can easily affect the reef's ecological balance and biodiversity. For example, over-fishing of herbivorous fish can also lead to high levels of algal growth. From subsistence level fishing to the live fish trade, inadequate fisheries management is forcing the decline of fish stocks. Choose seafood products that come from certified, well-managed and sustainable fisheries. Certified products are available at most supermarkets - check out the product label, or visit: www.fishonline.org
- Destructive fishing methods: Fishing with dynamite, cyanide and other methods that break up the fragile coral reef are highly unsustainable. Dynamite and cyanide stun the fish, making them easier to catch. Fishermen say they have no other option if they are to compete with trawlers and overcome a smaller supply of fish because of previous over-fishing. These practices generally do not select or target particular fish species and often result in juveniles being killed in the process. Damaging the coral reef habitat on which the fish rely will also reduce the productivity of the area, with further impacts on the livelihoods of fishermen.
- Unsustainable tourism: Tourism generates vast amounts of income for host countries. Where unregulated however, tourism pressures can cause damage to the very environment upon which the industry depends. Physical damage to the coral reefs can occur through contact from careless swimmers, divers, and poorly placed boat anchors. Hotels and resorts may also discharge untreated sewage and wastewater into the ocean, polluting the water and encouraging the growth of algae, which competes with corals for space on the reef.
- Coastal development: The growth of coastal cities and towns generates a range of threats to nearby coral reefs. Where space is limited, airports and other construction projects may be built on land reclaimed from the sea. Sensitive habitats can be destroyed or disturbed by dredging activities to make deep-water channels or marinas, and through the dumping of waste materials. Where land development alters the natural flow of water, greater amounts of fresh water, nutrients and sediment can reach the reefs causing further degradation. Within the last 20 years, once prolific mangrove forests, which absorb massive amounts of nutrients and sediment from runoff caused by farming and construction, have been destroyed. Nutrient-rich water causes fleshy algae and phytoplankton to thrive in coastal areas in suffocating amounts known as algal blooms. Coral reefs are biological assemblages adapted to waters with low nutrient content, and the addition of nutrients favours species that disrupt the balance of the reef communities.
- Pollution: Coral reefs need clean water to thrive. From litter to waste oil, pollution is damaging reefs worldwide. Pollution from human activities inland can damage coral reefs when transported by rivers into coastal waters. Do your bit - do not drop litter or dispose of unwanted items on beaches, in the sea, or near storm drains.
- Global Aquarium Trade: It is estimated that nearly 2 million people worldwide keep marine aquariums. The great majority of marine aquaria are stocked with species caught from the wild. This rapidly developing trade is seeing the movement of charismatic fish species across borders. Threats from the trade include the use of cyanide in collection, over-harvesting of target organisms and high levels of mortality associated with poor husbandry practices and insensitive shipping. Some regulation is in place to encourage the use of sustainable collection methods and to raise industry standards.
Benefits of a coral reef
Coral reefs are often called the rainforests of the sea, both due to the vast amount of species they harbour, and to the high productivity they yield. Aside from the hundreds of species of coral, reefs support extraordinary biodiversity and are home to a multitude of different types of fish, invertebrates and sea mammals. Covering less than one percent of the ocean floor, reefs support an estimated twenty-five percent of all marine life, with over 4,000 species of fish alone. Reefs provide spawning, nursery, refuge and feeding areas for a large variety of organisms, including sponges, cnidarians, worms, crustaceans (including shrimp, spiny lobsters and crabs), molluscs (including cephalopods), echinoderms (including starfish, sea urchins and sea cucumbers), sea squirts, sea turtles and sea snakes.
Reef structures play an important role as natural breakwaters, which minimize wave impacts from storms such as cyclones, hurricanes or typhoons.
Also, their beauty makes coral reefs a powerful attraction for tourism, and well managed tourism provides a sustainable means of earning foreign currency and employment for people around the world, even in remote areas of developing countries.
Several attempts have been made to estimate the value of coral reefs in terms of dollars. Benefits from coral reefs can be categorized into 2 types: "direct use values" (fisheries and tourism industry), and "indirect use values" (benefit derived from coastline protection). According to a United Nations estimate, the total economic value of coral reefs range from US$ 100,000 to 600,000 per square kilometre per year . In the front line: shoreline protection and other ecosystem services from mangroves and coral reefs.
In summary, healthy coral reefs provide:
- Habitat: Home to over 1 million diverse aquatic species, including thousands of fish species
- Income: Billions of dollars and millions of jobs in over 100 countries around the world
- Food: For people living near coral reefs, especially on small islands
- Protection: A natural barrier protecting coastal cities, communities and beaches
- Medicine: The potential for treatments for many of the world's most prevalent and dangerous Ilnesses and diseases.
Tuesday, September 2
Quiz
here is a quiz for you to do:
3. What can we do to SAVE THE REEF?
please post your answers with your comments
1.What is a main contributer to coral reef destruction?
2. What causes coral bleaching?3. What can we do to SAVE THE REEF?
please post your answers with your comments
Monday, September 1
Sunday, August 31
Jokes about coral reefs
Here are some jokes about coral reefs. there will be regularly updated:
One day, Simon told Theadore, "Did you know that to this date, more than 20% of the world's coral reefs have been totally destroyed?" Theadore, shocked, replied, "Oh, good greef!"
One day, Simon told Theadore, "Did you know that to this date, more than 20% of the world's coral reefs have been totally destroyed?" Theadore, shocked, replied, "Oh, good greef!"
Saturday, August 30
reef conservation websites
Websites about reefs and conservation of reefs:
http://www.coralreef.noaa.gov/
http://www.oceansatlas.org/servlet/CDSServlet?status=ND0xMjcyNS41NTA1NSY2PWVuJjMzPXdlYi1zaXRlcyYzNz1pbmZv
http://oceanworld.tamu.edu/students/coral/coral5.htm
Any one who wants to join on scuba diving expeditions:
http://www.coralcay.org/
http://www.coralreef.noaa.gov/
http://www.oceansatlas.org/servlet/CDSServlet?status=ND0xMjcyNS41NTA1NSY2PWVuJjMzPXdlYi1zaXRlcyYzNz1pbmZv
http://oceanworld.tamu.edu/students/coral/coral5.htm
Any one who wants to join on scuba diving expeditions:
http://www.coralcay.org/
Friday, August 29
Videos
Here are some coral reef videos on Youtube. This post will be constantly edited whenever we find new videos.
http://www.youtube.com/watch?v=zGYV79YSAh4&feature=related
http://www.youtube.com/watch?v=C2qYJVNblVs&feature=related
http://www.youtube.com/watch?v=4HhyHswjlJ8&feature=related
How devestating longlining is:
http://www.youtube.com/watch?v=WMYtuMgwNCY
http://www.youtube.com/watch?v=S4hte-MdRCg( Look at this... touching)
Coral Bleeching
http://www.youtube.com/watch?v=60jof35WuAo
http://www.youtube.com/watch?v=zGYV79YSAh4&feature=related
http://www.youtube.com/watch?v=C2qYJVNblVs&feature=related
http://www.youtube.com/watch?v=4HhyHswjlJ8&feature=related
How devestating longlining is:
http://www.youtube.com/watch?v=WMYtuMgwNCY
http://www.youtube.com/watch?v=S4hte-MdRCg( Look at this... touching)
Coral Bleeching
http://www.youtube.com/watch?v=60jof35WuAo
NOAA
What have we done to save these precious coral reefs? Well, the National Oceanic and Atmospheric Administration's (NOAA) Coral Reef Conservation Program supports effective management and sound science to preserve, sustain and restore valuable coral reef ecosystems. When we grow up, we could form clubs like NOAA and save corals, or other things like the icecaps which global warming melts. So if you can, save corals reefs.
Destruction of Coral Reefs
The destruction of coral reefs is the cause of weather conditions, such as hurricanes, and diseases. Human pollutions and too much fishing are also why the reefs are dying. The pollution comes in different forms. I went to the beach at East Coast Park and the things I saw were not pretty. there were bottles and plastic bags everywhere. I took some pictures to show it to you (below).
Coral Bleeching
Here is one of the main causes of coral destruction- Coral Bleeching
Coral bleaching is one of the main ways that coral reefs could die. Coral reef bleaching is the whitening of the creature due to reduction of photosynthetic pigment. Bleaching conditions that last longer than ten weeks usually lead to the death of the coral. It is caused by a change in sea temperature, sedimentation, freshwater dilution, and could be caused by many other things too. It is thought that half of all the coral reefs will die within the next forty years unless extreme measures are taken to save them from the climate changes. Twenty percent of the Earth’s coral reefs have been completely destroyed already. Another threat to coral reefs that causes bleaching is that there are very destructive fishing practices, like poison fishing that makes the coral more vulnerable to bleaching. It can decrease coral cover or get rid of fish that are important for the coral reef ecosystem. If we don’t start protecting the coral from bleaching, a lot more coral will die.
So it you want to save more corals, try to spread the word on this blog. We will appreciate it.
Thursday, August 28
What is it??? (summary)
Here is a short summary of "What is it?":
Coral reefs are structures formed by living organisms, found in oceans with little or no nutrients in the water. They cannot live in water with high nutrients as algae will form, harming the reefs.
The organisms which form the reefs give out calcium carbonate. After a while, they will accumulate and form coral reefs, to support a lot of other animals and plants. Reefs are also home to a large variety of other organisms, including sponges, Cnidarians (which includes some types of corals and jellyfish), worms, crustaceans (including shrimp, spiny lobsters and crabs), molluscs (including cephalopods), echinoderms (including starfish, sea urchins and sea cucumbers), sea squirts, sea turtles and sea snakes.
Coral reefs are structures formed by living organisms, found in oceans with little or no nutrients in the water. They cannot live in water with high nutrients as algae will form, harming the reefs.
The organisms which form the reefs give out calcium carbonate. After a while, they will accumulate and form coral reefs, to support a lot of other animals and plants. Reefs are also home to a large variety of other organisms, including sponges, Cnidarians (which includes some types of corals and jellyfish), worms, crustaceans (including shrimp, spiny lobsters and crabs), molluscs (including cephalopods), echinoderms (including starfish, sea urchins and sea cucumbers), sea squirts, sea turtles and sea snakes.
The Great Barrier Reef
The Great Barrier Reef isthe largest coral reef system in the world,stretching for 2,600 kilometres (1,600 mi) over an area of approximately 344,400 square kilometres (133,000 sq mi).The reef is located in the Coral Sea, off the coast of Queensland in northeast Australia.The Great Barrier Reef can be seen from outer space and is the world's biggest single structure made by living organisms. This reef structure is composed of and built by billions of tiny organisms, known as coral polyps. The Great Barrier Reef supports a wide diversity of life, and was selected as a World Heritage Site in 1981. CNN has labelled it one of the seven natural wonders of the world.The Queensland National Trust has named it a state icon of Queensland.
A large part of the reef is protected by the Great Barrier Reef Marine Park, which helps to limit the impact of human use, such as overfishing and tourism. Other environmental pressures to the reef and its ecosystem include water quality from runoff, climate change accompanied by mass coral bleaching, and cyclic outbreaks of the crown-of-thorns starfish.
However, other reefs are not protected. We need to put in our effort to keep these reefs alive. Do your part to save them by commenting on our blog!
We appreciate it.
A large part of the reef is protected by the Great Barrier Reef Marine Park, which helps to limit the impact of human use, such as overfishing and tourism. Other environmental pressures to the reef and its ecosystem include water quality from runoff, climate change accompanied by mass coral bleaching, and cyclic outbreaks of the crown-of-thorns starfish.
However, other reefs are not protected. We need to put in our effort to keep these reefs alive. Do your part to save them by commenting on our blog!
We appreciate it.
Longlining
HAVE you ever eaten Sharks Fin? HAVE you ever wondered where the sharks come from? HAVE you thought of how sharks might go extinct because of eating?
If sharks go extinct, the shark's prey would rise in numbers, causing the reefs to be eaten by more and more marine animals. The food pyramid would then be unstable.
Sharks are caught mostly by longlining, for their fins. The sharks are then threwn into the sea to die. Have you thought of the sharks dying?
Stop this crazy obession of sharks fin today and do your part in saving the REEF!
On behalf of the sharks, Thank You.
We appreciate it.
If sharks go extinct, the shark's prey would rise in numbers, causing the reefs to be eaten by more and more marine animals. The food pyramid would then be unstable.
Sharks are caught mostly by longlining, for their fins. The sharks are then threwn into the sea to die. Have you thought of the sharks dying?
Stop this crazy obession of sharks fin today and do your part in saving the REEF!
On behalf of the sharks, Thank You.
We appreciate it.
What is it???
Detailed description:
Coral reefs are structures produced by living things, found in the ocean with little to no nutrients in the water. High nutrient levels such as those found in runoff from agricultural areas can harm the reef by encouraging the growth of algae. In most reefs, the predominant organisms are stony corals, colonial cnidarians that secrete an exoskeleton of calcium carbonate. The accumulation of skeletal material, broken and piled up by wave action and bioeroders*, produces a massive calcareous formation that supports the living corals and a great variety of other animal and plant life. Although corals are found both in temperate and tropical waters, shallow-water reefs are formed only in a zone extending at most from 30°N to 30°S of the equator. Tropical corals do not grow at depths of over 50 m (165 ft). Temperature has less of an effect on the distribution of tropical coral, but it is generally accepted that they do not exist in waters below 18 °C. However, deep water corals can exist at greater depths and colder temperatures. Although deep water corals also form reefs, very little is known about them.
Coral reefs support an extraordinary biodiversity; although they are located in nutrient-poor tropical waters. The process of nutrient cycling between corals, zooxanthellae, and other reef organisms provides an explanation for why coral reefs flourish in these waters: recycling ensures that fewer nutrients are needed overall to support the community.
Cyanobacteria also provide soluble nitrates for the coral reef through the process of nitrogen fixation. Corals absorb nutrients, including inorganic nitrogen and phosphorus, directly from the water, and they feed upon zooplankton that are carried past the polyps by water motion. Thus, primary productivity on a coral reef is very high, which results in the highest values per square meter, at 5-10g C m-2 day-1. Producers in coral reef communities include the symbiotic zooxanthellae, coralline algae, and various seaweeds, especially small types called turf algae, although scientists disagree about the importance of these particular organisms.
Coral reefs are home to a variety of tropical or reef fish, such as the colorful parrotfish, angelfish, damselfish and butterflyfish. Other fish groups found on coral reefs include groupers, snappers, grunts and wrasses. Over 4,000 species of fish inhabit coral reefs. It has been suggested that the high number of fish species that inhabit coral reefs are able to coexist in such high numbers because any free living space is rapidly inhabited by the first planktonic fish larvae that occupy it. These fish then inhabit the space for the rest of their life. The species that inhabit the free space is random and has therefore been termed 'a lottery for living space'.
A healthy reef in East Timor on the southern edge of the Banda Sea
Reefs are also home to a large variety of other organisms, including sponges, Cnidarians (which includes some types of corals and jellyfish), worms, crustaceans (including shrimp, spiny lobsters and crabs), molluscs (including cephalopods), echinoderms (including starfish, sea urchins and sea cucumbers), sea squirts, sea turtles and sea snakes. Aside from humans, mammals are rare on coral reefs, with visiting cetaceans such as dolphins being the main group. A few of these varied species feed directly on corals, while others graze on algae on the reef and participate in complex food webs.
A number of invertebrates, collectively called cryptofauna, inhabit the coral skeletal substrate itself, either boring into the skeletons (through the process of bioerosion) or living in pre-existing voids and crevices. Those animals boring into the rock include sponges, bivalve molluscs, and sipunculans. Those settling on the reef include many other species, particularly crustaceans and polychaete worms.
Due to their vast biodiversity, many governments world-wide take measures to protect their coral reefs. In Australia, the Great Barrier Reef is protected by the Great Barrier Reef Marine Park Authority, and is the subject of much legislation, including a Biodiversity Action Plan.
*The erosion of hard ocean substrates by living organisms by a number of mechanisms
Coral reefs are structures produced by living things, found in the ocean with little to no nutrients in the water. High nutrient levels such as those found in runoff from agricultural areas can harm the reef by encouraging the growth of algae. In most reefs, the predominant organisms are stony corals, colonial cnidarians that secrete an exoskeleton of calcium carbonate. The accumulation of skeletal material, broken and piled up by wave action and bioeroders*, produces a massive calcareous formation that supports the living corals and a great variety of other animal and plant life. Although corals are found both in temperate and tropical waters, shallow-water reefs are formed only in a zone extending at most from 30°N to 30°S of the equator. Tropical corals do not grow at depths of over 50 m (165 ft). Temperature has less of an effect on the distribution of tropical coral, but it is generally accepted that they do not exist in waters below 18 °C. However, deep water corals can exist at greater depths and colder temperatures. Although deep water corals also form reefs, very little is known about them.
Coral reefs support an extraordinary biodiversity; although they are located in nutrient-poor tropical waters. The process of nutrient cycling between corals, zooxanthellae, and other reef organisms provides an explanation for why coral reefs flourish in these waters: recycling ensures that fewer nutrients are needed overall to support the community.
Cyanobacteria also provide soluble nitrates for the coral reef through the process of nitrogen fixation. Corals absorb nutrients, including inorganic nitrogen and phosphorus, directly from the water, and they feed upon zooplankton that are carried past the polyps by water motion. Thus, primary productivity on a coral reef is very high, which results in the highest values per square meter, at 5-10g C m-2 day-1. Producers in coral reef communities include the symbiotic zooxanthellae, coralline algae, and various seaweeds, especially small types called turf algae, although scientists disagree about the importance of these particular organisms.
Coral reefs are home to a variety of tropical or reef fish, such as the colorful parrotfish, angelfish, damselfish and butterflyfish. Other fish groups found on coral reefs include groupers, snappers, grunts and wrasses. Over 4,000 species of fish inhabit coral reefs. It has been suggested that the high number of fish species that inhabit coral reefs are able to coexist in such high numbers because any free living space is rapidly inhabited by the first planktonic fish larvae that occupy it. These fish then inhabit the space for the rest of their life. The species that inhabit the free space is random and has therefore been termed 'a lottery for living space'.
A healthy reef in East Timor on the southern edge of the Banda Sea
Reefs are also home to a large variety of other organisms, including sponges, Cnidarians (which includes some types of corals and jellyfish), worms, crustaceans (including shrimp, spiny lobsters and crabs), molluscs (including cephalopods), echinoderms (including starfish, sea urchins and sea cucumbers), sea squirts, sea turtles and sea snakes. Aside from humans, mammals are rare on coral reefs, with visiting cetaceans such as dolphins being the main group. A few of these varied species feed directly on corals, while others graze on algae on the reef and participate in complex food webs.
A number of invertebrates, collectively called cryptofauna, inhabit the coral skeletal substrate itself, either boring into the skeletons (through the process of bioerosion) or living in pre-existing voids and crevices. Those animals boring into the rock include sponges, bivalve molluscs, and sipunculans. Those settling on the reef include many other species, particularly crustaceans and polychaete worms.
Due to their vast biodiversity, many governments world-wide take measures to protect their coral reefs. In Australia, the Great Barrier Reef is protected by the Great Barrier Reef Marine Park Authority, and is the subject of much legislation, including a Biodiversity Action Plan.
*The erosion of hard ocean substrates by living organisms by a number of mechanisms
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