Florida Museum of Natural History
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Biological Profiles

Order - Tetracontiformes
Family - Diodontidae
Genus - Diodon
Species - holocanthus


The balloonfish was first described by Linnaeus in 1758. Synonyms include Diodon pilosus Mitchell 1815, Trichodiodon pilosus Mitchell 1815, Diodon multimaculatus Cuvier 1818, and Diodon maculifer Kaup 1855, among many others. The genus Diodon is derived from the Greek words "di" = two and "odous" = teeth. The species name holocanthus is translated as entirely prickly.

Common Names

English language common names include balloonfish, balloon porcupinefish, blotched porcupinefish, brown porcupinefish, freckled porcupinefish, hedgehog fish, longsping porcupinefish, porcupinefish, and spiny puffer. Diodon holocanthus has many common names arising from the predatory defense mechanisms that the species has developed. Other language common names include areva (Tahitian), baiacu de espinho (Portuguese), ballon-penvis (Afrikaans), Botiting laot (Tagalog), boule tangue (Creole), Bunju nungu (Swahili), buntal landak (Malay), Buriring (Cebuano), cá Nóc Nhiêm (Vietnamese), harisenbon (Japanese), igelfisch (German), najezka (Polish), peixe-ouriço-de-cista (Portuguese), pejerizo balón (Spanish), porc-épine ballon (French), and tamborillo (Spanish).

Geographical Distribution

The balloonfish is found circumtropically throughout the world's oceans, including the western Atlantic Ocean from Florida and the Bahamas, south to Brazil. It is also present in the eastern Atlantic as well as the western central and eastern Pacific Ocean.

Worldwide distribution of the porcupinefish (yellow) and the balloonfish (pink).
Distribution Map


Adult balloonfishes occur on shallow reefs amongst mangroves and in open bottom areas including seagrass beds and rocky substrates. Swimming closely to the bottom, they are found at depths ranging from 6-35 feet (2-100m) below the surface of the water.


· Distinctive Features
The body is covered in long, sharp spines that stick out when the fish inflates. The balloonfish inflates by taking water into its body when it is threatened. All members of the family Diodontidae are capable of inflation. Along with inflation, there may also be a color change due to the excitement.

Inflated Balloonfish (Diodon holocanthus).

· Coloration
The balloonfish is distinguished from similar species by the large, dark blotches on the sides and back that dominate its color pattern and the small black spots interspersed between them. Unlike its relative, the porcupinefish (Diodon hystrix), these small spots do not extend onto the fins. See Diodon key for further information. The balloonfish has a brown bar above and below each eye. The anal, dorsal, and pectoral fins are mainly used for navigating through corals at a slow speed.

A comparison between the Porcupinefish (Diodon hystrix) left and the Balloonfish (Diodon holocanthus) right. Note the spots on the fins of the Porcupinefish and the dark blotches on the body of the Balloonfish.
Porcupinefish (Diodon hystrix) Balloonfish (Diodon holocanthus)

· Size, Age, and Growth
This species commonly grows to lengths of 8-14 inches (20-35 cm), reaching a maximum of 20 inches (50 cm).

Balloonfish consume hermit crabs by using their strong, beak-like mouth.
courtesy NOAA
hermit crab
· Food Habits
Balloonfish are nocturnal predators, generally hiding in crevices during the day. The teeth are fused together into a single unit, creating a strong, beak-like mouth capable of cracking the shells of snails, sea urchins, and hermit crabs.

· Reproduction
Juvenile Diodon holocanthus (Balloonfish) displaying pelagic spotting.
source: Jeffrey M. Leis, Fishery Bulletin: Vol. 76, No.3, 1978
The balloonfish has a pelagic, or open-ocean, life stage. Spawning occurs after males slowly push females to the water surface. The eggs are spherical and buoyant, floating in the water. Hatching occurs roughly after four days. The larvae are predominately yellow with scattered red spots. They are well developed with a functional mouth, eyes, and a swim bladder. Larvae less than ten days old are covered with a thin shell. After the first ten days, the shell is lost and the spines begin to develop. The larvae undergo a metamorphosis approximately three weeks after hatching. During this time, all the fins and fin rays are present and the teeth are formed. The red and yellow colors of the larvae do not persist into the juvenile phase and are replaced by the
olives and browns, characteristic of adults. Dark spots also appear on the juvenile's underside. Pelagic juveniles are often associated with floating sargassum, and these spots may serve as camouflage from predators such as dolphin that swim below the seaweeds. Juveniles retain spotting until they move inshore and become adults. The juvenile balloonfish does not undergo another metamorphosis to become an adult. All changes now are external and include elongation of the spines and normal body growth.

Reared larvae of the Diodon holocanthus (Balloonfish) (E) newly hatched larvae 2.0mm, (F) 10-day-old larvae 2.4mm, (G) dorsal view of 10-day-old larvae, pigment omitted.
source: Jeffrey M. Leis, Fishery Bulletin: Vol. 76, No.3, 1978
Developmental stages of the Diodon holocanthus (Balloonfish) (A) early stage egg, (B) blastopore closure, (C) middle stage, (D) late stage.
source: Jeffrey M. Leis, Fishery Bulletin: Vol. 76, No.3, 1978

Dolphin are known to prey on ballonfish
© Don DeMaria
· Predators
Juvenile balloonfish are consumed by many pelagic predatory fishes, most notably tunas and dolphins. Adults fall prey to sharks.

Importance to Humans

They are shy creatures and will retreat if approached by a diver. In some parts of the world, the dried, inflated bodies are sold as tourist novelties. It is also used in Asian medicinal practices. The balloonfish is captured with nets and sold to the aquarium trade.


The balloonfish is not listed as endangered or vulnerable with the World Conservation Union (IUCN). The IUCN is a global union of states, governmental agencies, and non-governmental organizations in a partnership that assesses the conservation status of species.

Prepared by:
Casey Patton