1. Coral Reefs

2. What is coral? It’s a living organism! It is an invertebrate
Cnidaria!!
Sun Coral Polyps

3. Where Can You Find Coral Reefs?
Coral is found all over the world:
Tropical
Temperate
Only tropical corals build reefs
Coral reefs around the world

4. Coral Builds Reefs? The animal portion of the reef is called a polyp
The polyp absorbs calcium carbonate out of the water
The calcium carbonate is used to build the reef

5. Coral are Cnidarians Soft bodied Carnivorous
Stinging tentacles arranged in a circle around their mouth
Radial symmetry

6. Cnidarians
Usually two life stages:
Polyp
Medusa

7. Anatomy of Coral
The coral polyps build a calcium carbonate cup called a corallite to live in
Coral has stinging cells called nematocysts

8. Stinging Cells Nematocysts help coral catch food
They also help protect the coral
When the cell is stimulated, it releases a sharp barb
The barb will fire and catch the food and bring it back towards the mouth
Maybe add a slide about how they feed

9. Coral and Zooxanthella (algae)
Symbiotic relationship
Zooxanthella is an algae that lives in the skin of coral
Coral provides protection
Zooxanthella provides food and color!

10. Coral is Picky Very specific habitats: Temperature: 73-75F
Depth: Less than 80 ft to 230 feet
Salinity: Normal salt levels (35ppt)
Light: Zooxanthellae need light to survive
Sedimentation: Being covered with silt interferes with photosynthesis
Desiccation: being exposed to air. The corals will die if exposed too long

11. Key Concepts
Coral reefs are primarily found in tropical clear water, usually at depths of 60 meters or less.
The three major types of coral reefs are fringing reefs, barrier reefs, and atolls.
Both physical and biological factors determine the distribution of organisms on a reef.
© 2006 Thomson-Brooks Cole

12. Key Concepts
Stony corals are responsible for the large colonial masses that make up the bulk of a coral reef.
Reef-forming corals rely on symbiotic dinoflagellates called “zooxanthellae” to supply nutrients and to produce an environment suitable for formation of the coral skeleton.
Coral reefs are constantly forming and breaking down.
© 2006 Thomson-Brooks Cole

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15. Key Concepts
The most important primary producers on coral reefs are symbiotic zooxanthellae and turf algae.
Coral reefs are oases of high productivity in nutrient-poor tropical seas.
© 2006 Thomson-Brooks Cole

16. World of Coral Reefs
Coral reefs are highly productive, but occur in nutrient-poor waters
This is made possible by the symbiotic relationship between coral animals and zooxanthellae
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20. Coral Animals Coral nutrition symbiotic zooxanthellae
supply 90% of nutritional needs of stony coral
coral polyp provides a suitable habitat and nutrients, absorbed directly through the animal’s tissues
zooxanthellae remove CO2 and produce O2
need of zooxanthellae for sunlight limits the depths to which stony corals can grow
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22. Coral Animals Coral nutrition (continued) corals as predators
small animals paralyzed by the nematocysts are passed into the digestive cavity
© 2006 Thomson-Brooks Cole

23. Coral Animals Coral nutrition (continued) other sources of nutrition
corals can feed off bacteria living in their tissues, which feed on dissolved organic matter directly from the water
© 2006 Thomson-Brooks Cole

24. Coral Reef Types
Fringing reefs border islands or continental landmasses
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26. Coral Reef Types
Barrier reefs are similar to fringing reefs but separated from the landmass and fringing reef by lagoons or deepwater channels
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29. Coral Reef Types
Atolls, usually elliptical, arise out of deep water and have a centrally-located lagoon
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35. Reef Structure
Reef front or forereef—portion of the reef that rises from the lower depths of the ocean to a level just at or just below the surface of the water, on the seaward side
© 2006 Thomson-Brooks Cole

36. Reef Structure
Reef crest—the highest point on the reef and the part that receives the full impact of wave energy
Reef flat or back reef—portion behind the reef crest
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38. Coral Reef Distribution
Major factors influencing distribution:
temperature – corals do best at 23-25o C
light availability – photosynthetic zooxanthellae need light
sediment accumulation – can reduce light and clog feeding structures
salinity
wave action – moderate wave action brings in oxygenated seawater, removes sediment that could smother coral polyps
duration of air exposure – can be deadly
© 2006 Thomson-Brooks Cole

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40. Coral Reef Ecology Coral provides:
foundation for reef food webs
shelter for resident organisms
Reefs form a complex 3-dimensional habitat for many beautiful and strange creatures
© 2006 Thomson-Brooks Cole

41. Coral Reef Community Sponges and cnidarians Annelids
sessile organisms, though anemones can move if necessary
filter feed; anemones also paralyze and consume small fishes and crustaceans
Annelids
sessile filter feeders include featherduster and Christmas tree worms
fireworms are mobile predators
palolo worms burrow through and weaken coral and usually deposit feed
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43. Coral Reef Community Crustaceans Molluscs shrimps, crabs and lobsters
vary from parasites to active hunters
Molluscs
gastropods eat algae from coral surfaces
giant clams are filter feeders, but also host symbiotic zooxanthellae
octopus and squid are active predators
© 2006 Thomson-Brooks Cole

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45. Coral Reef Community Echinoderms Reef fishes
feather stars, sea urchins, brittle stars, sea stars, and sea cucumbers
filter feed, scavenge, or eat sediment
Reef fishes
most prominent and diverse inhabitant
diverse food sources, including detritus, algae, sponges, coral, invertebrates, other fish
© 2006 Thomson-Brooks Cole

46. Species Interactions on Coral Reefs
Competition among corals
fast-growing, branching corals grow over slower- growing, encrusting or massive corals and deny them light
slower-growing corals extend stinging filaments from their digestive cavity to kill faster-growing corals
fast-growing corals can also sting and kill using long sweeper tentacles with powerful nematocysts
© 2006 Thomson-Brooks Cole

47. Species Interactions on Coral Reefs
Competition among corals (continued)
slower-growing corals are more tolerant of shade, and can grow at greater depths
as a result…
fast-growing, branching corals on many reefs dominate upper, shallower portions
larger, slower-growing corals dominate deeper portions
© 2006 Thomson-Brooks Cole

48. Species Interactions on Coral Reefs
Competition between corals and other reef organisms
sponges, soft corals and algae can overgrow stony corals and smother them
algae outcompete corals at shallow depths unless grazers control the algae growth
© 2006 Thomson-Brooks Cole

49. Species Interactions on Coral Reefs
Effect of grazing
grazing of larger, fleshier seaweeds permits competitively inferior filamentous forms or coralline algae to persist
herbivory decreases with depth
damselfish form territories where they exclude grazers and permit abundant algal growth
provides habitat for small invertebrates
overgrows corals; fast-growing, branching corals are most successful near damselfish
© 2006 Thomson-Brooks Cole

50. Coral Reef Ecology
Coral reefs - marine habitats with greatest diversity/abundance of fishes
Seems to defy competitive exclusion principle, which suggests that no 2 species can occupy the same niche
60-70% of reef fishes are general carnivores
about 15% are coral algae grazers or omnivorous
© 2006 Thomson-Brooks Cole

51. Threats to Coral Reefs
Effect of physical changes on the health of coral reefs
hurricanes and typhoons topple and remove coral formations
El Niño Southern Oscillation (ENSO)
changes winds, ocean currents, temperatures, rainfall and atmospheric pressure over large areas of tropical and subtropical areas
can cause massive storms
© 2006 Thomson-Brooks Cole

52. Threats to Coral Reefs Coral bleaching
a phenomenon by which corals expel their symbiotic zooxanthellae
most often associated with warming of the ocean water by or global warming
if the stress is not too severe, corals may regain zooxanthellae and recover
if the stress is prolonged, corals may fail to regain zooxanthellae and die
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54. Threats to Coral Reefs Human impact on coral reefs
overfishing may occur
human-sewage bacteria cause white pox
nutrient-rich runoff (eutrophication) increases algal growth, which covers and smothers corals
e.g. Kane’ohe Bay in Hawaii
© 2006 Thomson-Brooks Cole

55. Evolutionary Adaptations of Reef Dwellers
Role of color in reef organisms
color for concealment and protection
countershading
disruptive coloration
camouflage (bright colors in reef environment)
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57. Evolutionary Adaptations of Reef Dwellers
Role of color in reef organisms
other types of camouflage
body shape
warning coloration
other roles of color
defending territories
mating rituals
© 2006 Thomson-Brooks Cole

58. Evolutionary Adaptations of Reef Dwellers
Symbiotic relationships on coral reefs
cleaning symbioses
cleaner wrasses, gobies, etc. feed on parasites of larger fishes
cleaning organisms set up a cleaning station
Other symbiotic relationships
clownfishes and anemones
conchfish and the queen conch
gobies and snapping shrimp
crustaceans and anemones
© 2006 Thomson-Brooks Cole

59. Coral Reefs http://tools.coralreef.org/content/
objects/view.acs?object_id=545
mccarty_and_peters/coral/C-intro.htm

60. Importance of Coral Reefs
0.2% of world’s oceans
Habitat for 1/3 of marine fishes
Habitat for tens of thousands of other animals
The rainforests of the oceans

61. Importance of Coral Reefs
PROTECTION TO COASTLINES
ECONOMIC RESOURCES
BIODIVERSITY
NATURAL BEAUTY

62. Importance of Coral Reefs
PROTECTION TO COASTLINES
absorb energy of ocean waves
reduce erosion of shoreline
storm damage
flooding

63. Importance of Coral Reefs
ECONOMIC RESOURCES
Fisheries for food
Fisheries for jobs
Tourism
Building materials
Aquarium trade

64. Importance of Coral Reefs
BIODIVERSITY
The rainforests of the sea
Genetic diversity
Pharmaceuticals

65. Importance of Coral Reefs
NATURAL BEAUTY
florida2/background/coralspawning.html

66. $375 billion in environmental goods and services
Reefs at Risk 1998 (

67. Caribbean reef values (annual net benefits in 2000)
Fisheries: $310 million
Dive tourism: $2.1 billion
Shoreline protection: $ billion
Total: $ billion

68. REEFS WORLDWIDE ARE THREATENED
11% of reefs have been lost
16% of reefs severely damaged
~60% of studied reefs threatened by human activities
No pristine reefs left

69. CARIBBEAN REEFS DECLINING
1970s: ~50% coral cover
Present: ~10% coral cover
=80% reduction in coral cover over last 30 years
Gardner et al Science 301:

70. Threats to coral and coral reefs:
1) Natural
2) Anthropogenic
of human origin

71. Natural disturbances that affect corals and coral reefs?
Hurricanes
Tsunamis
Volcanoes
Earthquakes
Predators & competitors
Bleaching
Pathogens

72. Hurricanes Smothering Freshwater poisoning
Physical damage
Smothering
Freshwater poisoning
1989hugo.html
Destruction of other ecosystems upon
which coral reefs depend

73. Tsunamis Physical damage Erosion
Possible disruption of reproduction and recruitment

74. Volcanoes Depends upon where volcano occurs Heat
smothering and sedimentation
current_volcs/montserrat/montserrat.html

75. Earthquakes Little direct impact Indirect impacts triggers tsunamis
coastal landslides

76. Predators crown of thorns starfish snails parrotfish butterflyfish
cot-starfish/pages/cot-q07.html

77. Competitors
algae

78. Bleaching Loss of zooxanthellae causes
higher than usual ocean temperature
sharp changes in salinity
heavy UV light exposure
mccarty_and_peters/coral/Bleach.htm

80. Pathogens Diseases on the rise new pathogens (8+)
land pathogens (Aspergillus)
occurring at all depths
More susceptible when stressed
homepages/mccarty_and_peters/
coral/Bbd.htm

81. Anthropogenic threats to coral reefs:
Overfishing
Development
Mining and dredging
Recreation

82. Overfishing Ecological imbalance

83. Overfishing Ecological imbalance

84. Overfishing Destructive fishing practices

85. Development Sediment  smothering Freshwater input
Pollutants & nutrients (sewage, pesticides, fertilizer, heavy metals, pathogens)

86. Development

87. Development

88. Mining for construction materials and dredging
Destruction of reef structure
stirs up sediment

89. Recreation Anchors, boats, flippers, hands, feet Kill animal tissue
Skeleton breakage

90. Global climate change Reduced reef building
Increase in frequency and intensity of hurricanes
Increases in bleaching
Increased in disease