Post on 31-Mar-2015
Identifying AGRRA Corals: Part 1Identifying AGRRA Corals: Part 1Mound and Boulder CoralsMound and Boulder Corals
Judith Lang and Kenneth MarksJudith Lang and Kenneth MarksAtlantic and Gulf Rapid Reef Assessment (AGRRA) ProgramAtlantic and Gulf Rapid Reef Assessment (AGRRA) Program
Revision: 2012-03-09Revision: 2012-03-09 www.agrra.orgwww.agrra.org
The following images are Copyright ©by New World Publications
and by other photographers.
Permission is granted to use the photographs and slides in this presentation with the
AGRRA Program and, with attribution, for other valid educational purposes..
All other uses are strictly prohibited.
For images used in Part 1, our special thanks to:P. Humann, B. Kakuk, R. McCall, C. Rogers, C. Sheppard, E. Shinn, R. Steneck, T. Turner
Stony Corals
Stony corals have soft polyps above a stony (calcareous) skeleton. Most reef-building corals form colonies of interconnected polyps.
The shapes, sizes and colour of the polyps and colonies are used to help identify corals.
expanded polypsexpanded polyps
partially contracted polypspartially contracted polyps
The shapes and sizes of polyps are also visible in their underlying skeletons.
Septa areconspicuous vertical partitions in the polyp wall.
Coral Skeletons
separated polyps interconnected polyps
Adapted from P.R. Kramer
Colony shape – massive (= mound, columnar, heavy plates), crust, plate, branching
Colony size range – small to big
Colony surface – bumpy, smooth, ridged
Polyp size – small to big
Polyp shape – round, elliptical, irregular, Y-shaped, meandroid (= short or long ridges and valleys)
Polyp colour – brown, tan, yellow, olive, green, redSeptal shape – fat, thin; smooth, toothed
What to Look for Underwater
The stony corals illustrated here are limited to species that are found in the wider Caribbean at depths (<20 m) that are typical of most AGRRA surveys.
The names of some corals are changing as a result of modern research. Expect updates!
For each species:(number in m and ft = maximum colony size)
AGRRA Coral Species
Coding Corals in AGRRA Surveys
Use the CARICOMP-based coral codes.
The coral code for a genus is the first 4 letters of its genus name.
ACRO = AcroporaUse the genus code whenever you are unsure of a coral’s species identity.
The coral code for a species is the first letter of the genus name followed by the first 3 letters of its species name.
APAL = Acropora palmata
Montastraea faveolata MFAV
small round polyps
mounds with “skirted” (platy) edges, or thick plates
diverse colours: green, brown, grey
can grow very large (to ~ 4-5 m/12-15 ft)
Montastraea faveolata MFAV
surfaces smooth, ridged or with bumps aligned in vertical rows
mounds flatten when shaded or in deeper water
shallow/high light
deep/low light
Montastraea annularis MANN
small round polyps that are alive at the tops of columns
form plates at colony bases under low light conditions
often light brown or yellow-brown
large (to ~ 3-4 m/9-12 ft)
Montastraea annularis MANN
How differs from M. faveolata:subdivides to form columns, with basal plates under low light conditions
live polyps on column tops lack a skirt-like edge
lighter tissue colours
Montastraea franksi MFRA
© P. Humann
irregular bumps with large polyps that are pale or lack zooxanthellae (can see skeleton below)
large polyps along colony margin
aggressive spatial competitor
Montastraea franksi MFRAdeep/low light:
thick, lumpy platesshallow/high light: irregularly shaped
mounds
can grow quite large (to ~ 3-4 m/9-12 ft)
How similar to M. faveolata:have bumps on large mounds, crusts or thick plates
How differs:larger polyps overall
polyps on bumps are even bigger, irregularly shaped, and often lack zooxanthellae
a more aggressive spatial competitor
Montastraea franksi MFRA
How similar to M. annularis: can have large columns or thick plates
How different:enlarged polyps in irregular bumps can lack zooxanthellae
large polyps along growing margins
a more aggressive spatial competitor
Montastraea franksi MFRA
Which is Which?
M. annularis M. franksi M. faveolata MANN MFRA MFAV
Complications!
Some colonies look like “intermediates” ofM. franksi, M. annularis and M. faveolata.
If unsure of species identity, code as Montastraea MONT
“In general, the genetic and morphological data suggest a north to south* hybridization gradient, with evidence for introgression strongest in the north. However, reproductive data show no such trend, with intrinsic barriers to gene flow comparable or stronger in the north.”
Fukami et al. (2004) Evolution 58:324-337.
*north to south = Bahamas versus Panama
Solenastrea bournoni SBOU
1 m
small round polyps with protruding walls (“outies”)
polyp centers are slightly darker than the outer walls
smooth or irregularly shaped mounds
(usually to ~ 50 cm/20 in)
Solenastrea bournoni SBOU
How differs from M. franksi:bumps on mounds lack enlarged, colourless polyps
lighter colours; central areas of polyps are darker than the outer walls
smaller colonies
M. franksi S. bournoni MFRA SBOU
Which is Which?
Solenastrea hyades SHYA
How similar to S. bournoni:light colourspolyps with distinct walls(to ~ 60 cm/2 ft)
How differs:irregular lobes abovean encrusting base
Montastraea cavernosa MCAV
large, round, distinct polyps (“outies”)
brown, yellow-brown, green or grey
pink or orange fluorescence sometimesseen underwater is due to a photosynthetic cyanobacterium (blue-green alga) in the polyps
Montastraea cavernosa MCAV
shallow/high light: mounds or columns
(to ~ 3 m/9 ft)
Montastraea cavernosa MCAV
deep/low light: flattened, massive plates or crusts
Dichocoenia stokesi DSTO
protruding, round, elliptical, elongate, or Y-shaped polyps
cream, yellow, or brown
mounds or irregular shapes
(to 50 cm/18 in)
Dichocoenia stokesi DSTO
How differs from M. cavernosa:polyps are more separate, andround, elliptical, Y-shaped, or sometimes very elongate
septa on vertical (not sloping) walls are more distinct
smaller colonies
Dichocoenia DICHColonies with flattened plates, and many small round polyps, were previously called Dichocoenia stellaris.
Their identity, and that of columnar or irregularly shaped “intermediates” with flattened bases, is unclear.
Favia fragum FFRA
distinct, round-elongated polyps (some Y-shaped)
septa have small teeth (see next slide)
pale yellow to brown
small (usually to ~ 10 cm/4 in)
Favia fragum FFRA
How similar to D. stokesi:distinct, round-elongated polyps, some are Y-shaped
How differs:polyp walls protrude far less
polyps are less separate
thinner septa with teeth on summits and inner sides
smaller when fully grown
D. stokesi M. cavernosa F. fragum DSTO MCAV FRA
Which is Which?
Siderastrea siderea SSID
sunken polyps (“innies”)
thin septa
uniform colours
large mounds (to ~ 2 m/6 ft)
Siderastrea siderea SSID
some pale or bleached colonies are fluorescent
Siderastrea radians SRAD
sunken “pinched” polyps (“innies”)
thick septa
pale polyp walls, centers dark
crusts, low mounds or unattached nodules
small (to ~ 30 cm/12 in)
Siderastrea radians SRAD
How differs from S. siderea:septa are fewer and thicker
“pinched” polyps, some elongate, and with darker centers
smaller, flatter colonies
S. siderea S. radians SSID SRAD
Which is Which?
Stephanocoenia intersepta SINT
SINTSINTSINTSINT
SINTSINT
round, sunken polyps thick septa
brown colour is most intense in polyp centers; appear to “blush” when polyps contract
thick crusts, irregular mounds
(to ~ 1 m/3 ft)
Stephanocoenia intersepta SINTHow similar to Solenastrea bournoni:small, round polyps with light colours that are most intense in polyp centers
How differs:sunken (not protuberant) polyps
crusts and low mounds usually have smoother surfaces
Stephanocoenia intersepta SINT
How similar to Siderastrea radians:sunken polyps with dark polyp centers
How differs:“blushes” when tissues contract
no “pinched” polyps
larger crusts and mounds
S. intersepta S.radians S. bournoni SINT SRAD SBOU
Which is Which?
Porites astreoides PAST
shallow: usually lumpy mounds and yellow, yellow-green or olive
deep: usually thick crusts, lumpy or flattened plates and grey or brown
(usually to ~ 1 m/3 ft)
all depths: tall, thin polyps look “fuzzy” when expanded
“unusual” shape/colour combinations can occur
Porites astreoides PAST