Invasion History

First Non-native North American Tidal Record: 2006
First Non-native West Coast Tidal Record:
First Non-native East/Gulf Coast Tidal Record: 2006

General Invasion History:

Tubastraea micranthus is native to the tropical Indo-Pacific, ranging from the Red Sea and Madagascar to Japan, Hawaii and Tonga (Schuhmacher 1984; US National Museum of Natural History 2010; Sammarco et al. 2010). Its only occurrence outside the Indo-Pacific are populations established on oil platforms off Louisiana (Sammarco et al. 2010).

North American Invasion History:

Invasion History on the Gulf Coast:

In 2006, during a survey of corals on operating and abandoned oil platforms, extensive populations of T. micranthus were found, confined to only one of the 83 rigs surveyed (G1-93-B). The rig was the standing production platform GI-93-B (28°32.96'N, 90°40.11'W), located about 100 km off the coast of Louisiana. This coral has increased in abundance in the years since it was discovered. By 2010, it had spread to eight other oil platforms in the region (Sammarco 2010). The colonies are spreading in waters influenced by the plume of turbid, nutrient-rich water from the Mississippi River (Sammarco 2014).


Description

Tubastraea micranthus is an azooxanthellate coral (lacking symbiotic algae), which grows in colonies consisting of clumps of calcareous cups, projecting from a spongy calcareous base. The corallites (calcareous wall around a single polyp) flare outward, and project in a loosely branching fashion. The calyx (mouth region) is 6–8 mm in diameter, smaller than that of T. coccinea. The corallite skeleton is white, with poorly defined ribs. The interior of the corallite is partly divided by septa, projecting into the body cavity; there are four kinds of septa, of varying width (S2 and S3 are well-developed, in contrast to T. coccinea) which are arranged in cycles around the opening of the corallite. There are 48 septa. The septa do not protrude on the exterior of the corallite. There is a prominent columella, a projection of the skeleton in the center of the corallite. The body of the polyp itself is black or dark-green, and the tentacles are also usually black or green, but sometimes gray (Sammarco et al. 2010).

The colonies of T. micranthus grow in bushy or tree-like colonies, up to 1 m tall (Schumacher 1984). At their only known introduced location, on an oil platform off Louisiana, colonies were only about 0.5 m tall, probably because they were still young (Sammarco et al. 2010). Branches can be 1–3 cm thick, and are usually oriented perpendicular to the current (Schumacher 1984). Size and calcification of colonies varies greatly in the Indo-Pacific, varying with environment, but also possibly indicating cryptic species (Schuhmacher 1984).


Taxonomy

Taxonomic Tree

Kingdom:   Animalia
Phylum:   Cnidaria
Class:   Anthozoa
Subclass:   Hexacorallia
Order:   Scleractinia
Suborder:   Dendrophylliina
Family:   Dendrophylliidae
Genus:   Tubastraea
Species:   micranthus

Synonyms

Conopsammia micranfhus (Klunzinger, 1879)
Dendrophyllia micranthus (van der Horst, 1926)
Dendrophyllia micranthus var. grandis (Crossland, 1952)
Dendrophyllia nigrescens (Dana, 1846)
Oculina micranthus (Ehrenberg, 1843)
Tubastraea micrantha (Rosen, 1979)
Tubastraea micranthus (Pichon, 1978)

Potentially Misidentified Species

Ecology

General:

Tubastraea micranthus is a coral which grows in bush or tree-like colonies (up to 1 m in diameter), and is capable of forming reefs (Schuhmacher 1984). Polyps reproduce asexually by budding from the base, or from the oral disk, to produce new polyps, which secrete their own calcareous skeletons (Barnes 1983; Harrison 2011). The reproductive biology of the planulae of this species is not known. However, its congener, T. coccinea, is hermaphroditic, and releases sperm into the water. Eggs and the developing planula larvae are brooded. Planulae of T. coccinea can also be produced asexually (Ayre & Resing 1986; Harrison 2011). The larvae of T. coccinea can be competent for up to 100 days (Fenner 2001). It is unclear to what extent these features apply to T. micranthus.

Tubastraea micranthus grows in tree-like colonies which have unusual structural strength, and are adapted to environments with strong currents (Schuhmacher 1984). They can grow on exposed bottom surfaces, on ledges, shipwrecks, and oil platforms (Schuhmacher 1984; Perkol-Finkel et al. 2006; Sammarco et al. 2010). Tubastraea micranthus lacks zooxanthellae (symbiotic algae), and so is not dependent on photosynthesis, relying on zooplankton captured with their tentacles. Because of its dependence on captured food, its growth rates are slower than those of corals with zooxanthellae (4 cm, yr-1, compared to 12 cm, yr-1 in some acroporid corals (Schuhmacher 1984). Tubastraea micranthus, probably because of its lack of zooxanthellae, extends into deeper water, down to 138 m (the bottom of the platform), than its congener T. coccinea (Sammarco et al. 2013).

Food:

Zooplankton

Trophic Status:

Suspension Feeder

SusFed

Habitats

General HabitatCoral reefNone
General HabitatVessel HullNone
General HabitatRockyNone
Salinity RangeEuhaline30-40 PSU
Tidal RangeSubtidalNone
Vertical HabitatEpibenthicNone

Life History


Tolerances and Life History Parameters

Maximum Depth (m)138Gulf of Mexico, off Louisiana (Sa mmarco et al. 2013)

General Impacts

Tubastraea micranthus is known from only one location outside its native range, oil platforms off Louisiana, where it is abundant and spreading. It has no known impacts here. However, this species has the potential to compete with native corals and other sessile organisms, and may alter coral reef habitats. The present density and rate of spread make erradication difficult (Sammarco et al. 2014). Web searches indicate that T. micranthus is sold in the aquarium trade, but is regarded as difficult to keep, requiring daily feedings and strong water movement.


Regional Distribution Map

Bioregion Region Name Year Invasion Status Population Status
EA-V None 0 Native Estab
SP-XXI None 0 Native Estab
SP-XIII None 0 Native Estab
AUS-XIII None 0 Native Estab
EAS-VI None 0 Native Estab
EAS-III None 0 Native Estab
EA-III None 0 Native Estab
NWP-2 None 0 Native Estab
SP-I None 0 Native Estab
EAS-V None 0 Native Estab
EAS-I None 0 Native Estab
RS-3 None 0 Native Estab
SP-VII None 0 Native Estab
RS-2 None 0 Native Estab
SP-VIII None 0 Native Estab
CAR-I Northern Yucatan, Gulf of Mexico, Florida Straits, to Middle Eastern Florida 2006 Def Estab
G210 Terrebonne/Timbalier Bays 2006 Def Estab
SP-XIV None 0 Native Estab
OM None 0 Native Estab
NWP-3b None 0 Native Estab
AUS-II None 0 Native Estab
EAS-III None 0 Native Estab
SP-III None 0 Native Estab
SP-IV None 0 Native Estab
AUS-XII None 0 Native Estab

Occurrence Map

OCC_ID Author Year Date Locality Status Latitude Longitude

References

Ayre, D. J.; Resing, J. M. (1986) Sexual and asexual production of planulae in reef corals, Marine Biology 90: 187-190

Barnes, Robert D. (1983) Invertebrate Zoology, Saunders, Philadelphia. Pp. 883

Creed, Joel C. and 11 authors (2017) The invasion of the azooxanthellate coral Tubastraea (Scleractinia: Dendrophylliidae) throughout the world: history, pathways and vector, Biological Invasions 19: 283-395
DOI 10.1007/s10530-016-1279-y

Fenner, Douglas (2001) Biogeography of three Caribbean corals (Scleractinia) and the invasion of Tubastraea coccinea into the Gulf of Mexico, Bulletin of Marine Science 69(3): 1175-1189

Harrison, Peter L. (2011) Coral Reefs: An Ecosystem in Transition, Springer Science+Business Media, <missing place>. Pp. 59-85

Hong, Jae-Sang (2013) Biology of the Mud Shrimp Upogebia major (de Haan, 1841), with particular Reference to pest management for shrimp control in Manila clam bed in the west coast of Korea, Ocean and Polar Research 35(4): 323-349

Liu, Wenliang; Liang, Xiaoli ; Zhu, Xiaojing (2015) A new record and mitochondrial identification of Synidotea laticauda Benedict, 1897 (Crustacea: Isopoda: Valvifera: Idoteidae) from the Yangtze Estuary, China, Zootaxa 4294: 371-380

Perkol-Finkel, S.; Shashar, N.; Benayahu, Y. (2006) Can artificial reefs mimic natural reef communities? The roles of structural features and age, Marine Environmental Research 61: 121-135

Ruiz, Gregory M.; Geller, Jonathan (2018) Spatial and temporal analysis of marine invasions in California, Part II: Humboldt Bay, Marina del Re, Port Hueneme, and San Francisco Bay, Smithsonian Environmental Research Center & Moss Landing Laboratories, Edgewater MD, Moss Landing CA. Pp. <missing location>

Sammarco, Paul W.; Porter, Scott A.; Cairns, Stephen D. (2010) A new coral species introduced into the Atlantic Ocean - Tubastraea micranthus (Ehrenberg 1834) (Cnidaria, Anthozoa, Scleractinia): An invasive threat?, Aquatic Invasions 5(2): 131-140

Sammarco, Paul W.; Porter, Scott A.; Sinclair, James; Genazzio, Melissa (2013) Depth distribution of a new invasive coral (Gulf of Mexico): Tubastraea micranthus, comparisons with T. coccinea, and implications for control, Management of Biological Invasions 4(4): 291-303

Sammarco, Paul W.; Porter, Scott A.; Sinclair, James; Genazzio, Melissa (2014) Population expansion of a new invasive coral species, Tubastraea micranthus, in the northern Gulf of Mexico, Marine Ecology Progress Series 495: 161-173

Schuhmacher, H. (1984) Reef-building properties of Tubastraea micranthus (Scleractinia, Dendrophylliidae), a coral without zooxanthellae, Marine Ecology Progress Series 20: 93-99

U.S. National Museum of Natural History 2002-2021 Invertebrate Zoology Collections Database. http://collections.nmnh.si.edu/search/iz/



Zullo, Robert 2010 Scientists find 'alien' coral species off Fourchon's coast. <missing URL>