1. Marine Ecology
Coral Reefs

2. CORAL REEFS Most diverse and productive communities DIVERSITY!
Protection from wave energy
Foster ecological oases
Mangroves
Seagrass beds
Iconic ecosystem
Sensitive
Threatened by humans

3. Development and Distribution
Biogenic
30* N and S of equator
Cover <0.1% of global ocean surface area
Host >25% of fish species
Better than rainforests!
Species per unit area

4. Development and Distribution
Hermatypic
Reef-building
Tropics
Growth and distribution influenced by physical environment
Ahermatypic
Non reef-building
Mostly world-wide

5. Development and Distribution
Temp: 18-36*C
Types of reef based on;
Underlying substratum
Existing carbonate reef
Igneous rock
Sea level changes
Light levels
Wave action

6. Patch Reefs Bommies Small reefs Grow in shallow lagoonal areas
Surrounded by sand
Deeper
Don’t go above surface at low tide

7. Fringing Reefs Develop on shelving shores Rocky tropical islands
Corals settle and grow on well-lighted and shallows areas
Grow toward surface

8. Barrier Reefs Surround tropical islands Separated from land by lagoon
Usually 1-10km wide
Line of breaking surf
May develop from fringing
After sea level rise
Grow quickly
Exposure to wind/currents

9. Atolls A ring of reef with low-lying islands surrounding a lagoon
10km (or more) across
Biological diversity
Seabird colonies
Charles Darwin
Formation theory

10. Reef Growth Not continuous Net reef growth
Periods of rapid growth
Periods of bioerosion
Net reef growth
Fastest: 20m in 1000yrs
Usual: 3m in 1000yrs
Growth affected by sea-level
Glaciers

11. Corals and Coral Communities
CaCO3 skeletons
Polyps
Protection and nutrients
Zooxanthellae
Photosynthesizers
Dinoflagellate
Can live independently
No flagella/motility in polyp

12. Corals and Coral Communities
Zooxanthellae
Transmitted during reproduction
Obtained from seawater
Produce energy
Autotrophic
Waste from host- RECYCLE!
High rate of photosyn more calcium carbonate

13. Coral Reproduction Recruitment Sexual and asexual Hermatypic Sexual
Recruitment
Sexual and asexual
Hermatypic
Polyps; asexual budding
Break off, settle, grow
Sexual
Long-distance dispersal
Gonochoric- one
Simultaneous- both
Sequential Hermaphrodites- change

14. Coral Reproduction Brooding Broadcasting Fertilized internally
Brooding
Fertilized internally
Planula develops inside polyp
Broadcasting
Certain period of the year
Lunar cycle
Synchronized
Common cues
Too many eggs for the evil predators to eat

15. Coral Reproduction Fertilized eggs
Settle in 1-3 days
Zooxanthellae aquired after settlement and metamorphosis
Brooder larvae contain them
Calcified base plate
Grazing helps growth
Influenced by environment

17. Coral Reproduction LIGHTlightlightlightlight Reef accretion Sunburn!
0-10m
Hermatypic
Rare below 30m
Shallow, well-lit zone
More light
Less predators
Sunburn!
Stenothermal

18. Coral Growth Evolved in stable temp Evolved in variable temp
Less tolerant
Evolved in variable temp
More tolerant
Salinity 33-35ppt
Wave action currents
Nutrient spreading
Can be harmful
Hurricanes

19. Coral Growth Sediments Some coral can remove it
Sediments
Some coral can remove it
Smothering, abrasion, shading, recruitment inhibition
Pulse Sediment
Storms
Not as harmful
Suspended Sediment
Human actions
Reduced light for coral

20. Productivity Production recycled within the reef Carbon fixation
Less than half the carbon they fix is available
Few organisms feed on coral directly
Reef algae
Very productive
Grazed on and carbon

21. Productivity Phytoplankton! Support zooplankton
Support larger consumers
Currents carry them across reef
Currents carry them from outlying water, and over the reef…
Then they can be eaten- YUM!!

22. Productivity 24-h cycle used to measure Day- photosynthesis
Night- respiration
Excess Production- net production which occurs (E)
Photosyn/Respiration ratio
(P/R ratio)
E=0, P/R of 1
E is relatively low
Competition
Nutrient recycling

23. Reef Fauna Could be home to over a million species Diiiiiiiiiverse!
Not uniform
Determined by reef history and environment
Reef building coral evolved over 200 mil yrs ago
Large scale extinctions
Every million years

24. Reef Fauna Diversity Study Influenced by isolation
Began; 1950’s and 60’s
Focused on ecology
Realized instability
Research still young

25. THREATS! Humans (of course) Direct Indirection We suck!!
Increased sedimentation
Fishing
Ship stupidity
Pollution
Indirection
Climate change
Over-fishin

26. Disease Yes, corals get sick too Black band Pathogens and parasites
Can be aggravated by human influences
Black band
1st recorded
Affects brain coral
Caused by cyanobacteria
Create anoxia in the tissue
Physically damaged
More susceptible

27. Bad Weather Storms Cyclones Hurricanes Branching corals Reef fish
(10-25* N/S)
Fast growing coral that relocate
Hurricanes
Fast growers
Acropora

28. Climate Change Climate change Rising sea level
Should be good for shallow water coral
Increased ENSO due to temp increase
HUMANS
Nutrient input
Deep corals will not do well

29. Coral Bleaching Stressed coral expel their zooxanthellae
Stressed coral expel their zooxanthellae
Skeleton becomes visible
Prolonged bleaching leads to coral death
Bioerosion takes over
Algae move in
Reduce reef accretion
Fish species will be lost
High water temperature

30. Coral Predators Crown-of-thorns starfish Feed on living coral
Crown-of-thorns starfish
Feed on living coral
Free-spawners
12-60mil eggs in a spawning season
Evert their stomach on coral, and secreting an enzyme which breaks down the coral
Fishing may have reduced their predators

31. Pollution, Sediments, Nutrients
Deforestation, port development, and dredging
Run off
Increased sediment load
Nutrients from run-off
Increased algal growth
Phosphate; big no-no
Oil pollution

32. Fishing Expanding fisheries Habitat-destructive fishing Direct damage
Reef drive netting
Trapping
Blast/chemical fishing
Unselective
Illegal

33. Reef Growth Limestone produced
And broken down
Coral rubble/sand
Balance between accretion and bioerosion
Erosion by organisms
Grazers
Mollusc, echinoderm, fish
Loss of hermatypic corals

34. Reef Animals Difficult to record densities Used as ‘laboratories’
Behavior and ecology
Carrying capacity
Recruitment limitation hypothesis
Population sizes limited and determined by rates at which larval fish from plankton to adult

35. Reef Animals No one species can out-compete the other
Reef structure is complex
Symbiosis
Coexist
Cleaner fish
Burrowers

36. Reefs and Humans Provide food and income Subsistence fishing Tourism
Not recorded
Tourism
Great Barrier Reef
Over 10mil per year
Towns can be supported by revenue
Ecosystem services; help humans
Coastal defense
Coral mining, bleaching, sedimentation