Title: Symbiosis between Zooxanthellae
1Symbiosis between Zooxanthellae Corals
2What are Zooxanthellae?
- Unicellular yellow-brown dinoflagellate algae
which live in the gastrodermis of corals - Provide corals with food in the form of
photosynthetic products - Live in corals tissues at a density of 1million
cells/cm² - Due to need for light, they only live in ocean
waters lt100 m - Recently found that there are 10 different
species that live in corals
3http//www.seaslugforum.net/factsheet.cfm?basezoo
x1
http//plaza.ufl.edu/amb1685/Coral_Reef.html
4What are Corals?
- Start their lives as free-swimming young
- Once they find a hard bottom, they attach
themselves and quickly change into a polyp - Coral polyp splits in 2 and makes an identical
copy of itself - Form a colony and secrete a hard calcium
carbonate skeleton - Each polyp makes a small skeletal cup called a
calyx which aids in feeding - As coral colony grows, it secretes new skeletal
material on top of the old - Over thousands of years of accumulation, a coral
reef is formed
5http//www.seasky.org/reeflife/sea2b.html
6Symbiotic Relationship between the Two
- Zooxanthellae
- Provide Corals with food in the form of organic
matter - Corals
- Provide zooxanthellae a safe place to live
- Excrement is taken in by dinoflagellates and are
recycled
7Fringing Reefs
- Simplest most common type
- Develop near shore throughout tropics
- Occurring close to land makes them vulnerable to
sedimentation, freshwater runoff, and human
disturbance Consist of - An inner reef flat
- An outer reef slope
8http//plaza.ufl.edu/amb1685/Coral_Reef.html
9Barrier Reefs
- Much further from shore than fringing reef
- Consist of
- A back-reef slope
- A reef flat
- A fore-reef slope
- Most coral growth occurs on the fore-reef slope
10http//plaza.ufl.edu/amb1685/Coral_Reef.html
11Atoll
- Ring of reef that form from sinking volcanoes
- Usually have a central lagoon
- Can rise up from depths of thousands of meters or
more - Occur mostly in the Indo-west Pacific region
12http//plaza.ufl.edu/amb1685/Coral_Reef.html
13Coral Bleaching
- Occurs when corals undergo stressful situations
- White calcium carbonate skeleton is exposed when
corals expel their zooxanthellae - Never a total elimination, (60-90) remain
- Is possible for corals to come back as long as a
substantial amount of time has not passed - Normal environmental conditions must return
- If conditions do not return, host corals will
perish -
14http//www.marinebiology.org/coralbleaching.htm
15http//www.marinebiology.org/coralbleaching.htm
16Climatic Change / Human Impact
- Climatic change
- Increase in temperature
- Violent weather
- Increased UV exposure
- Human impact
- Oil pollution
- Coral mining
- Overfishing
- Sedimentation
- Nutrient enrichment
17ReferencesBrown, B. E. 1997. Disturbances to
reefs in recent times. Pages 354-379 in Life and
Death of Coral Reefs, edited by C. Birkeland.
Chapman Hall, New York, NY. Graham, Linda
E., and Lee W. Wilcox. Algae. Upper Saddle River,
NJ Prentice Hall, 2000. Hughes, Terry P.
Climate Change, Human Impacts, and the
Resilience of Coral Reefs Science. 301.5635
(2003) 564-576. Muller-Parker, G., and C. F.
DElia. 1997. Interactions between corals and
their symbiotic algae. Pages 96-113 in Life and
Death of Coral Reefs, edited by C. Birkeland.
Chapman Hall, New York, NY. West, Jordan M.,
and Rodney V. Salm. Resistance and Resilience to
Coral Bleaching Implications for Coral Reef
Conservation and Management. Conservation
Biology. 17.4 (2003) 956-967.