Transcript Coral Reefs
Coral Reefs
12-5 Coral Anatomy
• Coral reefs consist of many diverse species of
corals. These corals in turn are made up of tiny
organisms called polyps. The structure of the
polyps and the skeleton of the coral is a rather
simple combination. A polyp is made up or two
cell layers: the epidermis and the gastrodermis.
The non-tissue layer between the gastrodermis
and the epidermis is called the mesoglea.
• The corallite is the part of the skeleton
deposited by one polyp. The skeletal wall
around each polyp is called the theca. The coral
anatomy also includes calcareous plate-like
structure known as septa. The septa radiate
from the wall to the center of the corallite.
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Coral Reefs
• Zooxanthellae are unicellular yellow-brown
(dinoflagellate) algae which live symbiotically in the
gastrodermis of reef-building corals (Goreau et al.,
1979). It is the nutrients supplied by the zooxanthellae
that make it possible for the corals to grow and
reproduce quickly enough to create reefs.
• Zooxanthellae provide the corals with food in the form of
photosynthetic products. In turn, the coral provides
protection and access to light for the zooxanthellae.
• It was once believed that all zooxanthellae were the
same species, Symbiodinium microadriaticum (Rowan
and Powers, 1991). However, recently, zooxanthellae of
various corals have been found to belong to at least 10
different algal taxa.
Coral Reproduction
Corals exhibit sexual and asexual reproduction. The coral colony
expands in size by budding. Budding may be intratentacular, in
which the new bud forms from the oral discs of the old polyp, as in
Diploria, or extratentacular in which the new polyp forms from the
base of the old polyp, as in Montastraea cavernosa.
A common type of asexual reproduction in corals is by
fragmentation. Broken pieces of corals that land on a suitable
substrate may begin growing and produce a new colony. This type
of reproduction is common in branching corals like Acropora
cervicornis in which a positive correlation was found between
fragment size and survival.
Coral Reproduction
Many coral species mass spawn. Within a 24 hour period, all the
corals from one species and often within a genus release their eggs
and sperm at the same time.
Some species of coral brood their larvae. The sperm fertilizes the
egg before both are released from the coral. The larvae float to the
top, settle, and become another colony. Species of Acropora release
brooded larvae.
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Coral Feeding
• Corals can obtain food in a variety of ways. Reef-building corals
rely on the photosynthetic products of zooxanthellae for the
majority of their nutrients. However, corals also capture
zooplankton for food. Corals are suspension feeders. They utilize
two main methods of prey capture: nematocyst adhesion and
mucus entrapment (Sebens and Johnson, 1991).
• Nematocysts on the tentacles and mesentarial filaments can be
used to sting prey and move it into the mouth. Some corals will
trap prey in sticky mucus on their tentacles and move the prey
into the mouth using the mucus and cilia. Prey size is correlated
to polyp size (Sebens and Johnson, 1991).
• Most corals feed at night. This may be because night is when the
zooplankton travel into the water column and become available
for capture. Keeping the tentacles retracted during the day may
also help corals avoid predation, protect themselves from UV
light, and avoid shading their zooxanthellae.
• Four coral conditions have been identified as diseases: white
band disease (WBD), black band disease (BBD), bacterial
infection, and shut down reaction (Richmond 1993). They are
also susceptible to tumors and parasitic worms. These
maladies are all stress related, and anthropogenic stresses can
increase a coral's susceptibility to these diseases.
• Diseases such as BBD and WBD actually kill coral tissue while
advancing in a band around the coral and leaving the white
coral skeleton behind. Edmunds (1991) stated that BBD,
caused by cyanophyte Phormidium corallyticum, may have a
role in maintaining coral diversity because it is most prevalent
in coral species that form large colonies and provide a
structural framework for the reef. WBD, which is believed to
be caused by a bacteria pathogen yet unknown, has much of
the same effect on corals, leaving behind a white, lifeless coral
skeleton. Gladfelter (1982)
•
• The crown-of-thorns starfish (Acanthaster
planci)
• The crown-of-thorns sea star feeds on
polyps. It spreads it's stomach out through
the mouth over a lump of living coral,
secreting digestive juices, kills the coral
and then sucks in the resulting "soup".
After feeding it moves on leaving a patch of
white, or a coral skeleton. The Crown of
Thorns seastar usually feed twice a day for
several hours.
• Small and juvenile Crown of Thorns starfish
feed at night, so they can avoid predators
which are more active during daylight.
Depending on its size the Crown of Thorns
can eat from 2 to 6 sq. meters of coral a
year. That can be up to 180 times as much
coral destroyed compared to its own size
per year When times are bad, like many
other starfish, it may survive without
feeding for up to 9 months.
• Preferred Coral
The Crown-of-thorns starfish will eat most
types of coral but prefer the branching
tubular and staghorn type corals called
Acropora (which is fast growing) They do
not tend to eat Brain corals or large,
hemispherical (termed massive) corals
(such as the coral Porites)
• Coral bleaching is the whitening of coral colonies due to the
loss of symbiotic zooxanthellae from the tissues of polyps.
This loss exposes the white calcium carbonate skeletons of
the coral colony. Corals naturally lose less than 0.1% of their
zooxanthellae during processes of regulation and
replacement (Brown and Ogden, 1993). However, adverse
changes in a coral's environment can cause an increase in the
number of zooxanthellae lost. There are a number of stresses
or environmental changes that may cause bleaching including
disease, excess shade, increased levels of ultraviolet
radiation, sedimentation, pollution, salinity changes, and
increased temperatures.