Tedania ignis
Family: Tedaniidae
Common names: Fire Sponge
Synonyms: Tedania brucei Wilson, 1894,  more...
Tedania ignis image
Tedania ignis  

Species Description: The fire sponge, Tedania ignis, is one of several sponges commonly found in western Atlantic and Caribbean coastal waters, named for the burning sensation and rash it produces when touched (eg. Kaplan 1988). The fragile tissue of T. ignis forms large masses, bright red or orange in color externally and lighter inside (Voss 1980). Water exits the sponge through 1 cm wide openings called oscula. Each osculum is located at the top of cones, areas of the sponge raised approximately 1 cm from the surrounding tissue.

Potentially Misidentified Species: Approximately 5,000 species of sponges have been described, 90% of which are placed with T. ignis in the class Demospongiae (Ruppert & Barnes 1994). Several species of demosponges are found in various habitats within the IRL, many in association with the fire sponge. However, the conspicuous T. ignis can be easily identified, and further microscopic analysis of the shape of the internal skeletal structures, called spicules, can be used to distinguish this sponge from many other species.

Regional Occurrence & Habitat Preference: The range of T. ignis extends from Florida to Brazil, Bermuda and the Gulf of Mexico (Kaplan 1988, Wulff 2006). Masses of the sponge can be found on rocks, dead coral, in seagrass beds and on the prop roots of the red mangrove, Rhizophora mangle (Kaplan 1988).

IRL Distribution: The fire sponge can be found in several areas of the IRL, including: mangroves, seagrass beds and rock shorelines. Large populations of T. ignis have been collected from sponge communities growing on jetty rocks at the Fort Pierce Inlet in St. Lucie County (Jaeckle 1995, Maldonado & Young 1996).

Age, Size, Lifespan: Little is known about the maximum age and average lifespan of T. ignis colonies. In many areas, the fire sponge can encrust large surfaces with a layer about 1 cm thick (Kaplan 1988), and grow in vertical forms up to 30 cm in height (Voss 1980).

Abundance: The fire sponge is a common species in Florida waters, occurring in small numbers or large aggregations depending on environmental conditions and habitat type. Densities of T. ignis on rocks at the Fort Pierce Inlet of the IRL were recorded at approximately 9 individuals per square meter (Maldonado & Young 1996).

Reproduction: Most sponges are hermaphrodites, but they undergo sexual reproduction by producing either eggs or sperm exclusively over the course of a reproductive season or period (Ruppert & Barnes 1994). In addition, several species can regenerate lost or damaged tissue, and a few sponges can reproduce asexually through budding.

However, little is known about these processes in T. ignis, and the majority of studies have focused on sexual reproduction of the species. Eggs are produced by archeocyte or choanocyte cells, and are fertilized when the parent takes in sperm from nearby sponges through the incurrent pore. In T. ignis, fertilized eggs are brooded in the adult sponge until hatching. Larval release for fire sponge populations in the IRL occurs from late April through August, when coastal waters are warm (Maldonado & Young 1996).

Embryology: Numbers of brooded eggs are highest at the beginning of a reproductive period, with 5 mm2 x 1mm sections of tissue holding approximately 8-12 eggs (Maldonado & Young 1996). After hatching, larvae are released from the parent through the ectosome, or dermal layer. Populations of T. ignis in the IRL usually undergo massive larval release, followed by small releases of 15-20 larvae over a few days (Maldonado & Young 1996). Each larva is orange-red in color, approximately 800 x 600 µm in size, and weighs about 17 µg (Jaeckle 1995). They are uniformly ciliated except for the posterior end, which is bare. These cilia and body contractions allow larvae to swim in a slow corkscrew motion for the next 48 to 72 hours, after which they settle in shaded areas, usually near adult T. ignis (Maldonado & Young 1996). Fusion of larvae and juveniles is common during settlement.

Temperature & Salinity: Little information is available on the environmental tolerances of T. ignis. However, the range and distribution of the species suggests it prefers warm brackish to marine waters.

Trophic Mode: Like other sponges, T. ignis is a filter feeder. The sponge draws in water through incurrent pores using flagellated cells called choanocytes (Ruppert & Barnes 1994). Suspended particles between 0.1 and 1.5 µm are taken in, mostly consisting of bacteria and other organic material. The choanocytes partially digest the food material which is then transferred to other parts of the sponge for final assimilation.

Predators: Although the color and chemical compounds of T. ignis appear to act as predation deterrents, a few species find the sponge palatable, including: parrotfish; the cushioned sea star, Oreaster reticulatus; and the gray angelfish, Pomacanthus arcuatus (Wulff 2006).

Associated Species: Little information exists about obligate associations of T. ignis. However, as inhabitants of a variety of coastal ecosystems, the fire sponge is associated with several organisms common to seagrass beds, mangroves, rocky shores and nearshore reefs. 

Special Status: Biomedical Applications

Economic Importance: In 1984, a potent antitumor compound, known as tedanolide, was isolated from the fire sponge (Schmitz et al. 1984). Over the past 20 years, the growing interest in this chemical compound has prompted the total synthesis of tedanolide for use in clinical trials, no longer requiring the use of the sponge for compound production.

de Laubenfels, MW. 1950. The porifera of the Bermuda archipelago. Trans. Zool. Soc. Lond. 27: 1-154.

Jaeckle, WB. 1995. Transport and metabolism of alanine and palmitic acid by field-collected larvae of Tedania ignis (Porifera, Demospongiae): Estimated consequences of limited label translocation. Biol. Bull. 189: 159-167.

Kaplan, EH. 1988. A field guide to southeastern and Caribbean seashores: Cape Hatteras to the Gulf coast, Florida, and the Caribbean. Houghton Mifflin Co. Boston, MA. USA. 425 pp.

Keough, MJ & BJ Downes. 1982. Recruitment of marine invertebrates: the role of active larval choices and early mortality. Oecologia. 54: 348-352.

Maldonado, M & CM Young. 1996. Effects of physical factors on larval behavior, settlement and recruitment of four tropical demosponges. Mar. Ecol. Prog. Ser. 138: 169-180.

Mothes, B, Hajdu, E & RWM van Soest. 2000. Tedania brasiliensis new species (Demospongiae, Poecilosclerida, Tedaniidae) from Brazil, with some remarks about the genus Tedania in the tropical southwestern Atlantic. Bull. Mar. Sci. 66: 1-11.

Ruppert, EE & RD Barnes. 2004. Invertebrate zoology, 6th edition. Saunders College Publishing. Orlando, FL. USA. 1056 pp.

Rutzler, K. 1986. Porifera. 111-127. In: Sterrer, W, ed. Marine fauna and flora of Bermuda: A systematic guide to the identification of marine organisms. Wiley. New York, NY. USA.

Schmitz, FJ, Gunasekera, SP, Yalamanchili, G, Hossain, MB & D van der Helm. 1984. Tedanolide: A potent cytotoxic macrolide from the Caribbean sponge Tedania ignis. J. Amer. Chem. Soc. 106: 7251-7252.

Storr, JF. 1976. Ecological factors controlling sponge distribution in the Gulf of Mexico and the resulting zonation. 261-276. In: Harrison, FW & RR Cowden, eds. Aspects of sponge biology. Academic Press. New York, NY. USA.

Voss, GL. Seashore life of Florida and the Caribbean. Dover Publications, Inc. Mineola, NY. USA. 199 pp.

Wapstra, M & RWM van Soest. 1987. Sexual reproduction, larval morphology and behavior in demosponges from the southwest of the Netherlands. In: Vacelet, J & N Boury-Esnault, eds. Taxonomy of Porifera. Springer Verlag. Berlin, Germany. 281-307. Wulff, JL. 2006. Sponge systematic by starfish: Predators distinguish cryptic sympatric species of Caribbean fire sponges, Tedania ignis and Tedania klausi n. sp. (Demospongiae, Poecilosclerida). Biol. Bull. 211: 83-94.

Apopyle: Outlet from a flagellated chamber to an excurrent canal in leuconoid sponges.

Archaeocytes: Large cells with large nuclei; phagocytic and play a role in digestion; also known to be totipotent, capable of transforming into other cell types needed by the animal. Archaeocytes serve a variety of functions from engulfing large food particles to transporting nutrients, and in some sponges, they play a pivotal role in reproduction.

Asconoid: A simple and tubular body plan characteristic of small sponges, not usually solitary.

Choanocytes: Cells responsible for moving water through the sponge and for obtaining food; ovoid with one end adjacent to the mesohyl and the opposite end projecting into the spongocoel and bearing a flagellum surrounded by a collar of microvilli.

Collencytes: Fixed cell of sponges that is anchored by long cytoplasmic strands; secrete dispersed collagen fibers, not spongin.

Incurrent Canals: Tubular invagination of the sponge pinacoderm that leads into the flagellated chambers.

Leuconoid: Refers to a type of sponge organization built around flagellated chambers and an extensive system of canals that increases the efficiency of water movement. The largest species of sponge have this body type.

Megascleres: Larger spicules forming the chief supporting elements in the skeleton.

Mesenchyme: See Mesohyl.

Mesohyl: A gelatinous, proteinaceous matrix that lies beneath the pinacoderm, containing skeletal material and ameboid cells; equivalent to the connective tissue of other metazoans; sometimes referred to as the mesenchyme.

Microscleres: Spicules that are considerably smaller than the structural megascleres.

Oscula: Plural of Osculum.

Osculum: Large opening where water exits the sponge.

Ostia: Plural of Ostium.

Ostium: A small opening perforating the surface of asconoid sponges; also called a incurrent pore, from which the name Porifera is derived.

Pinacocytes: Epithelial-like flattened cells which cover the outer surface, making up the pinacoderm.

Porocyte: A ring-shaped cell that extends from the external surface to the spongocoel, making up each pore.

Prosopyle: Internal opening of a sponge through which water flows from the incurrent canal into a radial canal or flagellated chambers.

Sclerocytes: Cells involved in the secretion of spicules in calcareous sponges.

Spiicules: Can be siliceous or calcareous and of various morphologies or shapes, including simple rods (monaxons) to more complex forms with three (triaxons), four (tetraxons), or more (polyaxons) axes. Spicules, along with spongin, provide structural support, and are considered to be an anti-predator mechanism. They are also a helpful diagnostic tool for sponge identification.

Spongin: A collagenous, fibrous protein that, along with the spicules, forms the “skeleton” of most sponges.

Spongocoel: Interior cavity of the sponge, also known as the atrium, into which water flows.

Spongocytes: Cells that secrete the spongin skeleton.

Syconoid: Radially symmetrical sponges that have a body wall folded into radially-oriented canals.

Tedania ignis image
Tedania ignis  
Tedania ignis image
Tedania ignis  
Tedania ignis image
Tedania ignis