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Zebra shark
Zebra shark
Zebra shark
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Zebra shark
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Chordata
Class: Chondrichthyes
Subclass: Elasmobranchii
Division: Selachii
Order: Orectolobiformes
Family: Stegostomatidae
T. N. Gill, 1862
Genus: Stegostoma
J. P. Müller & Henle, 1837
Species:
S. tigrinum
Binomial name
Stegostoma tigrinum
(Forster, 1781)
Range of the zebra shark
Synonyms
List
  • Squalus varius Seba, 1759
  • Squalus tigrinus Forster, 1781
  • Squalus fasciatus Hermann, 1783
  • Stegostoma fasciatum (Hermann, 1783)
  • Squalus longicaudus Gmelin, 1789
  • Scyllia quinquecornuatum van Hasselt, 1823
  • Scyllium heptagonum Rüppell, 1837
  • Stegostoma carinatum Blyth, 1847
  • Squalus pantherinus Kuhl & van Hasselt, 1852
  • Squalus cirrosus Gronow, 1854
  • Stegostoma varium Garman, 1913
  • Stegostoma tigrinum naucum Whitley, 1939

The zebra shark (Stegostoma tigrinum) is a species of carpet shark and the sole member of the family Stegostomatidae. It is found throughout the tropical Indo-Pacific, frequenting coral reefs and sandy flats to a depth of 62 m (200 ft). Zebra sharks are distinctive in appearance, with adults possessing five longitudinal ridges on a cylindrical body, a low caudal fin comprising nearly half the total length, and typically a pattern of dark spots on a pale background. Young zebra sharks under 50–90 cm (20–35 in) long have a completely different pattern, consisting of light vertical stripes on a brown background, and lack the ridges. This species attains a length of 2.5 m (8.2 ft).

Zebra sharks are nocturnal and spend most of the day resting motionless on the sea floor. At night, they actively hunt for molluscs, crustaceans, small bony fishes, and possibly sea snakes inside holes and crevices in the reef. Though solitary for most of the year, they form large seasonal aggregations. The zebra shark is oviparous: females produce several dozen large egg capsules, which they anchor to underwater structures via adhesive tendrils. Innocuous to humans and hardy in captivity, zebra sharks are popular subjects of ecotourism dives and public aquaria. The World Conservation Union has assessed this species as Endangered worldwide, as it is taken by commercial fisheries across most of its range (except off Australia) for meat, fins, and liver oil. There is evidence that its numbers are dwindling.

Taxonomy

[edit]

The genus name is derived from the Greek stego meaning "covered", and stoma meaning "mouth".[2] The specific epithet fasciatum means "banded", referring to the striped pattern of the juvenile.[3] The juvenile coloration is also the origin of the common name "zebra shark". The name "leopard shark" is sometimes applied to the spotted adult, but that name usually refers to the houndshark Triakis semifasciata, and is also sometimes used for the tiger shark (Galeocerdo cuvier).[4] Due to their different color patterns and body proportions, both juveniles and subadults have historically been described as separate species (Squalus tigrinus and S. longicaudatus respectively).[5]

Early taxonomists thought that juvenile zebra sharks were a different species because of their different appearance from adults.

The zebra shark was first described as Squalus varius by Seba in 1757 (Seba died years earlier; the publication was posthumous). No type specimen was designated, though Seba included a comprehensive description in Latin and an accurate illustration of a juvenile. Müller and Henle placed this species in the genus Stegostoma in 1837, using the specific epithet fasciatus (or the neuter form fasciatum, as Stegostoma is neuter while Squalus is masculine) from an 1801 work by Bloch and Schneider. In 1984, Compagno rejected the name "varius/m" in favor of "fasciatus/m" for the zebra shark, because Seba did not consistently use binomial nomenclature in his species descriptions (though Squalus varius is one that can be construed as a binomial name). In Compagno's view, the first proper usage of "varius/m" was by Garman in 1913, making it a junior synonym.[4][5] Both S. fasciatum and S. varium are currently in usage for this species;[4] until the early 1990s most authorities used the latter name, but since then most have followed Compagno and used the former name.[6] A taxonomic review in 2019 instead argued that S. tigrinum is its valid name. This name was omitted in Compagno's review in 1984, possibly due to confusion over its year of description (in a publication in 1941, Fowler mistakenly listed it as being described in 1795). Squalus tigrinus was described by Forster in 1781, two years before Squalus fasciatus was described by Hermann. Consequently, the former and older is the valid name (as Stegostoma tigrinum), while the latter and younger is its junior synonym. As the name proposed by Forster in 1781 has been used in tens of publications since 1899, it is not a nomen oblitum.[6]

Phylogeny

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There is robust morphological support for the placement of the zebra shark, the whale shark (Rhincodon typus), and the nurse sharks (Ginglymostoma cirratum, Nebrius ferrugineus, and Pseudoginglymostoma brevicaudatum) in a single clade. However, the interrelationships between these taxa are disputed by various authors.[7] Dingerkus (1986) suggested that the whale shark is the closest relative of the zebra shark, and proposed a single family encompassing all five species in the clade.[8] Compagno (1988) suggested affinity between this species and either Pseudoginglymostoma or a clade containing Rhincodon, Ginglymostoma, and Nebrius.[5] Goto (2001) placed the zebra shark as the sister group to a clade containing Rhincodon and Ginglymostoma.[7]

Description

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Adult zebra sharks have longitudinal ridges on the body, a spotted pattern, and small eyes with larger spiracles.
Close-up of zebra shark

The zebra shark has a cylindrical body with a large, slightly flattened head and a short, blunt snout. The eyes are small and placed on the sides of the head; the spiracles are located behind them and are as large or larger. The last 3 of the 5 short gill slits are situated over the pectoral fin bases, and the fourth and fifth slits are much closer together than the others. Each nostril has a short barbel and a groove running from it to the mouth.[9] The mouth is nearly straight, with three lobes on the lower lip and furrows at the corners. There are 28–33 tooth rows in the upper jaw and 22–32 tooth rows in the lower jaw; each tooth has a large central cusp flanked by two smaller ones.[5]

There are five distinctive ridges running along the body in adults, one along the dorsal midline and two on the sides. The dorsal midline ridge merges into the first dorsal fin, placed about halfway along the body and twice the size of the second dorsal fin. The pectoral fins are large and broad; the pelvic and anal fins are much smaller but larger than the second dorsal fin. The caudal fin is almost as long as the rest of the body, with a barely developed lower lobe and a strong ventral notch near the tip of the upper lobe. The zebra shark attains a length of 2.5 m (8 ft 2 in), with an unsubstantiated record of 3.5 m (11 ft 6 in).[5] Males and females are not dimorphic in size.[10]

The color pattern in young sharks is dark brown above and light yellow below, with vertical yellow stripes and spots. As the shark grows to 50–90 cm (20–35 in) long, the dark areas begin to break up, changing the general pattern from light-on-dark stripes to dark-on-light spots.[5] There is substantial variation in pattern amongst adults, which can be used to identify particular individuals.[10] A rare morph, informally called the sandy zebra shark, is overall sandy–brown in color with inconspicuous dark brown freckles on its upperside, lacking the distinct dark-spotted and banded pattern typical of the species. The appearance of juveniles of this morph is unknown, but subadults that are transitioning into adult sandy zebra sharks have a brown-netted pattern. Faint remnants of this pattern can often be seen in adult sandy zebra sharks. This morph, which is genetically inseparable from the normal morph, is only known from the vicinity of Malindi in Kenya, although seemingly similar individuals have been reported from Japan and northwestern Australia.[6]

In 1964, a partially albino zebra shark was discovered in the Indian Ocean. It was overall white and completely lacked spots, but its eyes were blackish-brown as typical of the species and unlike full albinos. The shark, a 1.9 m (6 ft 3 in) long mature female, was unusual in that albino animals rarely survive long in the wild due to their lack of crypsis.[4]

Distribution and habitat

[edit]
Zebra sharks are often seen resting on sand near coral.

The zebra shark occurs in the tropical waters of the Indo-Pacific region, from South Africa to the Red Sea and the Persian Gulf (including Madagascar and the Maldives), to India and Southeast Asia (including Indonesia, the Philippines, and Palau), northward to Taiwan and Japan, eastward to New Caledonia and Tonga, and southward to northern Australia.[5][2]

Bottom-dwelling in nature, the zebra shark is found from the intertidal zone to a depth of 62 m (200 ft) over the continental and insular shelves. Adults and large juveniles frequent coral reefs, rubble, and sandy areas.[5] There are unsubstantiated reports of this species from fresh water in the Philippines.[2] Zebra sharks sometimes cross oceanic waters to reach isolated seamounts.[10] Movements of up to 140 km (87 mi) have been recorded for individual sharks.[10] However, genetic data indicates that there is little exchange between populations of zebra sharks, even if their ranges are contiguous.[11]

Biology and ecology

[edit]

During the day, zebra sharks are sluggish and usually found resting on the sea bottom, sometimes using their pectoral fins to prop up the front part of their bodies and facing into the current with their mouths open to facilitate respiration. Reef channels are favored resting spots, since the tightened space yields faster, more oxygenated water.[12] They become more active at night or when food becomes available. Zebra sharks are strong and agile swimmers, propelling themselves with pronounced anguilliform (eel-like) undulations of the body and tail.[5] In a steady current, they have been seen hovering in place with sinuous waves of their tails.[12]

The zebra shark feeds primarily on shelled molluscs, though it also takes crustaceans, small bony fishes, and possibly sea snakes. The slender, flexible body of this shark allows it to wriggle into narrow holes and crevices in search of food, while its small mouth and thickly muscled buccal cavity allow it to create a powerful suction force with which to extract prey.[5] This species may be preyed upon by larger fishes (notably other, much larger sharks) and marine mammals. Known parasites of the zebra shark include four species of tapeworms in the genus Pedibothrium.[4]

Social life

[edit]

Zebra sharks are usually solitary, though aggregations of 20–50 individuals have been recorded.[13] Off southeast Queensland, aggregations of several hundred zebra sharks form every summer in shallow water. These aggregations consist entirely of large adults, with females outnumbering males by almost three to one. The purpose of these aggregations is yet unclear; no definite mating behavior has been observed between the sharks.[10] There is an observation of an adult male zebra shark biting the pectoral fin of another adult male and pushing him against the sea floor; the second male was turned on his back, and remained motionless for several minutes. This behavior resembles pre-copulatory behaviors between male and female sharks, and in both cases the biting and holding of the pectoral fin has been speculated to relate to one shark asserting dominance over the other.[14]

Life history

[edit]
Several egg cases of the zebra shark

The courtship behavior of the zebra shark consists of the male following the female and biting vigorously at her pectoral fins and tail, with periods in which he holds onto her pectoral fin and both sharks lie still on the bottom. On occasion this leads to mating, in which the male curls his body around the female and inserts one of his claspers into her cloaca. Copulation lasts for two to five minutes.[15] The zebra shark is oviparous, with females laying large egg capsules measuring 17 cm (6.7 in) long, 8 cm (3.1 in) wide, and 5 cm (2.0 in) thick. The egg case is dark brown to purple in color, and has hair-like fibers along the sides that secure it to the substrate.[5] The adhesive fibers emerge first from the female's vent; the female circles vertical structures such as reef outcroppings to entangle the fibers, so as to anchor the eggs. Females have been documented laying up to 46 eggs over a 112-day period.[15] Eggs are deposited in batches of around four.[5] Reproductive seasonality in the wild is unknown.[1]

A juvenile zebra shark with a color pattern intermediate between that of young and adults

In captivity, the eggs hatch after four to six months, depending on temperature.[15] The hatchlings measure 20–36 cm (7.9–14.2 in) long and have proportionately longer tails than adults.[5] The habitat preferences of juveniles are unclear; one report places them at depths greater than 50 m (160 ft), while another report from India suggests they inhabit shallower water than adults. The stripes of the juveniles may have an anti-predator function, making each individual in a group harder to target.[12] Males attain sexual maturity at 1.5–1.8 m (4.9–5.9 ft) long, and females at 1.7 m (5.6 ft) long.[5] Their lifespan has been estimated to be 25–30 years in the wild.[2] There have been two reports of female zebra sharks producing young asexually.[16][17][18] An additional study has observed parthenogenesis in females regardless of sexual history.[19]

Human interactions

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Female zebra shark at the Children's Aquarium at Fair Park

Docile and slow-moving, zebra sharks are not dangerous to humans and can be easily approached underwater. However, they have bitten divers who pull on their tails or attempt to ride them. As of 2008 there is one record of an unprovoked attack in the International Shark Attack File, though no injuries resulted.[2] They are popular attractions for ecotourist divers in the Red Sea, off the Maldives, off Thailand's Phuket and Phi Phi islands, on the Great Barrier Reef, and elsewhere. Many zebra sharks at diving sites have become accustomed to the presence of humans, taking food from divers' hands and allowing themselves to be touched. The zebra shark adapts well to captivity and is displayed by a number of public aquaria around the world. The small, attractively colored young also find their way into the hands of private hobbyists, though this species grows far too large for the home aquarium.[5]

The zebra shark is taken by commercial fisheries across most of its range, using bottom trawls, gillnets, and longlines.[5] The meat is sold fresh or dried and salted for human consumption. Furthermore, the liver oil is used for vitamins, the fins for shark fin soup, and the offal for fishmeal.[20] Zebra sharks are highly susceptible to localized depletion due to their shallow habitat and low levels of dispersal between populations, and market surveys suggest that they are much less common now than in the past. They are also threatened by the degradation of their coral reef habitat by human development, and by destructive fishing practices such as dynamiting or poisoning. As a result, the IUCN Red List has this species categorized as Endangered.[1] Off Australia, the only threat to this species is a very low level of bycatch in prawn trawls, and there it has been assessed as of Least Concern.[21]

References

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Zebra shark

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from Grokipedia
The zebra shark (Stegostoma fasciatum) is a species of carpet shark in the family Stegostomatidae, inhabiting tropical and subtropical inshore waters across the Indo-Pacific region, including areas from South Africa to the Red Sea, Pakistan, India, Southeast Asia, and Australia. It prefers sand, rubble, rock reefs, and coral bottoms at depths ranging from 0 to 62 meters, where it forages nocturnally for mollusks, crustaceans, and small fish. Notable for its oviparous reproduction, the species lays distinctive purse-shaped eggs encased in a leathery shell, and captive individuals have demonstrated facultative parthenogenesis, allowing females to produce offspring without male fertilization. Classified as Vulnerable on the IUCN Red List due to ongoing population declines driven by targeted fisheries for meat, fins, and liver oil, the zebra shark faces heightened extinction risk in regions with intensive coastal fishing pressure.

Classification and evolution

Taxonomy

The zebra shark (Stegostoma fasciatum) is the only extant species in the genus Stegostoma and the monotypic family Stegostomatidae. Its full taxonomic classification is:
Taxonomic rankScientific name
KingdomAnimalia
Chordata
Class
OrderOrectolobiformes
Stegostomatidae
GenusStegostoma
S. fasciatum
The species was originally described by Johann Friedrich Hermann in 1783 as Squalus fasciatus, based on specimens from the Indian Ocean. The genus Stegostoma was erected by Johannes Müller and Franz Henle in 1838 to accommodate this and related forms, with the family Stegostomatidae formally established by Theodore Nicholas Gill in 1862. The generic name derives from the Greek words stegos (covering or roof) and stoma (mouth), alluding to the shark's upper jaw being overlain by a thick, membranous fold that partially covers the mouth. The specific epithet fasciatum (Latin for banded or striped) refers to the distinctive dark stripes and bands on juveniles that fade with maturity. Nomenclatural debates persist regarding the valid specific name, with S. tigrinum (originally described by François Daudin in 1802, based on earlier observations by in 1790) proposed as senior synonym by some researchers due to issues with Hermann's type material and priority rules under the . However, S. fasciatum is retained as valid by major databases like the , reflecting ongoing resolution of synonymy based on morphological and historical evidence. Common synonyms include Squalus varius (Seba, pre-Linnaean, unavailable) and various junior combinations under Stegostoma.

Phylogeny

The zebra shark (Stegostoma tigrinum) is the only extant species in the monotypic family Stegostomatidae, classified within the order Orectolobiformes (), which encompasses about 45 species across seven families characterized by features such as nasoral grooves and barbels. This order belongs to the subclass , part of the class . A 2019 taxonomic revision established S. tigrinum as the valid binomial, superseding Stegostoma fasciatum due to nomenclatural priority under the . Molecular phylogenetic analyses, including complete mitochondrial sequencing (16,658 bp), position S. tigrinum in a with the (Rhincodon typus, family Rhincodontidae) within Orectolobiformes, supported by using 12S/16S rRNA genes and protein-coding sequences under the GTR + I + G model. This relationship reflects a broader Orectolobiformes topology where Stegostomatidae associates with Rhincodontidae sister to + Orectolobidae, with the order forming a alongside and , and basal among neoselachians. The evolutionary history of Orectolobiformes traces to an origin around 204 million years ago at the Triassic-Jurassic boundary, with ancestral diversity peaking in Tethyan and North American shallow seas before shifting to hotspots post-Cretaceous-Paleogene boundary (~66 million years ago). Stegostomatidae and Rhincodontidae diverged near this boundary, with limited fossil evidence for zebra sharks constraining prehistoric inferences, though modern diversification in the order occurred primarily in the . Chromosome-scale genome assembly (3.71 Gb, 2n=102) reveals conserved synteny with the despite ~50 million years of , indicating low rates of rearrangement in elasmobranch karyotypes compared to bony fishes.

Physical characteristics

Morphology and coloration

The zebra shark possesses a moderately stout, cylindrical body marked by five prominent longitudinal ridges running along the dorsal surface and flanks. These ridges extend from the head to the caudal peduncle and remain visible even in preserved specimens. The head is relatively short and rounded, featuring a transverse positioned ventrally beneath large eyes, paired nasal barbels for sensory detection, and five slits. The snout is blunt with a pair of fleshy lobes or barbels anterior to the nostrils, aiding in bottom . Fins include large, broad pectoral fins, smaller pelvic fins, and two dorsal fins without spines—the anterior dorsal fin larger and positioned over the pelvic fin bases, the posterior dorsal smaller and over the anal fin. The caudal fin is notably elongated and low-profile, comprising 49.9–54.2% of total length with a deep terminal notch but lacking a prominent ventral lobe. The skin is covered in dermal denticles typical of , contributing to a rough texture. Juveniles exhibit dark brown or blackish coloration with transverse white stripes and spots resembling a zebra pattern, which serves potential camouflage among reef structures. This pattern predominates in individuals under 70 cm in length. Adults undergo ontogenetic color change, shifting to a pale yellowish-brown or sandy ground color adorned with numerous dark brown spots or , akin to a , which may enhance blending with sandy substrates. A rare "sandy" morph has been documented with even lighter tones and reduced spotting, though it retains the species' morphological traits.

Size, growth, and anatomy

The zebra shark (Stegostoma fasciatum) reaches a maximum total length (TL) of approximately 2.5 m in the wild, though records exceeding 3 m exist but are rare and often unsubstantiated. Weights for adults typically range from 20 to 30 kg. No significant in adult size is observed. Newborns hatch from eggs at around 26.5 cm TL and 72 g total weight. Growth follows a von Bertalanffy model, with an estimated asymptotic length of 187 cm TL in captive conditions and a growth coefficient k of 0.56, indicating relatively slow growth after an initial acceleration in the first 3–4 years. The length-weight relationship is positively allometric, described by TW = 2.16 × 10⁻⁴ × TL³⋅⁵⁴ (where TW is total weight in grams and TL in cm), with a strong correlation (R² = 0.986). Sexual maturity occurs at 147–183 cm TL for males and 169–171 cm TL for females, typically around 165–170 cm TL based on field observations. The body is stout and cylindrical, featuring five prominent longitudinal ridges along the dorsal surface and flanks that extend to the caudal peduncle. The head is broad and flattened, with a short, rounded bearing fleshy barbels and anterior nasal flaps for sensory detection; the is transverse and ventral, equipped with small, pavement-like teeth suited for crushing benthic prey. The two dorsal fins are posteriorly placed and of similar size, with the first originating behind the pectoral fin bases; the anal fin is similar in shape to the second dorsal but slightly smaller; the caudal fin is long and low, comprising nearly half the total body length, with a pronounced ventral lobe and a terminal lobe shorter than the dorsal. Pectoral fins are large and paddle-like, aiding in maneuvering over the seafloor. Internally, the shark possesses a intestine with multiple valvular turns, typical of orectolobiform for enhanced nutrient absorption. The is cartilaginous, as in all , providing flexibility while supporting the robust frame.

Distribution and habitat

Geographic range

The zebra shark (Stegostoma fasciatum) is distributed across the tropical Indo-West Pacific, inhabiting continental and insular shelves from the and eastward to and . Its range extends northward to southern and southward to the coastal waters of , including as far south as on the east coast and the western coast of . Records also include recent sightings in . Genetic analyses reveal two primary subpopulations: an Indian-Southeast Asian group and an Eastern Indonesian-Oceania subgroup, indicating some genetic structuring within the broader distribution despite apparent connectivity across IUCN-defined zones. The species is absent from the eastern Pacific and Atlantic Oceans, confining its presence to warm, shallow tropical waters conducive to its demersal lifestyle.

Environmental preferences and adaptations

The zebra shark (Stegostoma fasciatum) primarily inhabits tropical and subtropical waters of the , favoring coral s, sandy flats, rubble bottoms, and adjacent seagrass or mangrove areas, with a depth range from intertidal zones to 62 m, though most commonly recorded between 5 and 30 m. Juveniles preferentially occupy shallow coastal nurseries such as mudflats, s, and beds, transitioning to deeper reef and offshore habitats as they mature, which supports growth and reduces predation risk in structured environments. These sharks tolerate brackish inshore waters alongside fully marine conditions, reflecting adaptability to variable gradients near estuaries, but they avoid open oceanic expanses, consistently associating with benthic substrates for resting and foraging. Environmental factors like influence site occupancy, with individuals less frequently present during elevated wave conditions that disrupt benthic stability. Morphological adaptations suit reef-associated lifestyles, including a slender, flexible body up to 3.5 m long and posteriorly positioned, low-profile dorsal fins that facilitate maneuvering through narrow crevices, channels, and gaps in structures for prey access and predator evasion. The ventral and anterior nasal barbels enable bottom-dwelling suction feeding on concealed , while diurnal resting postures—often propped on pectoral fins facing currents with agape—aid respiration and passive prey entrapment in sandy substrates. Behaviorally, nocturnal activity aligns with low-light reef dynamics, minimizing diurnal competition and exposure, though embryos demonstrate thermal sensitivity, with high mortality under experimentally elevated temperatures, suggesting narrow tolerances to rapid warming that could exceed historical norms.

Behavior and ecology

Social behavior and site fidelity

Zebra sharks (Stegostoma fasciatum) are predominantly solitary, with individuals typically foraging and resting alone during most of their active periods. As nocturnal hunters, they spend daylight hours in relative inactivity, often lying motionless on the seafloor or within crevices, minimizing interactions with conspecifics outside of brief encounters. Observations indicate limited social structure, though loose aggregations of 20 to 50 individuals occasionally form in shallow coastal waters, particularly during the breeding season when males may pursue females in pre-copulatory behaviors such as tail-chasing. These groupings appear transient and lack evidence of cooperative hunting or hierarchical dominance, aligning with broader patterns in carpet sharks where sociality is minimal compared to more gregarious elasmobranchs. Site fidelity, or , is a notable behavioral trait in zebra sharks, with individuals demonstrating strong attachment to specific sites over extended periods. In southeast , , acoustic tracking of 22 individuals from 2008 to 2010 revealed that sharks returned repeatedly to core areas within 1-2 km radii, with residency indices indicating prolonged stays influenced by seasonal water temperatures; warmer months (above 24°C) correlated with higher fidelity to shallow sites, potentially for or . Similar patterns emerged in , where baited underwater video and local ecological knowledge confirmed localized distributions and repeated sightings at fixed reefs, suggesting site-specific or nursery use despite the species' broad Indo-Pacific range. Juveniles exhibit particularly high philopatry in coastal nurseries, aggregating in shallow, protected s that provide refuge from predators, though adults show more variable movement tied to prey availability and environmental cues. This fidelity underscores the species' to localized threats, as habitat degradation in preferred sites can disrupt residency patterns essential for survival and reproduction.

Feeding and diet

Zebra sharks (Stegostoma fasciatum) primarily consume shelled mollusks, including gastropods and bivalves, which form the bulk of their diet, along with lesser quantities of crustaceans such as and shrimps, and small bony fishes. They also feed on echinoderms like sea urchins and, infrequently, other . This benthic, opportunistic diet reflects their habitat in coral reefs and sandy bottoms, where prey hides in crevices or burrows. As nocturnal foragers, zebra sharks actively hunt at night, relying on sensory structures like barbels and labial furrows around the to detect buried or concealed prey. Their flexible, cylindrical bodies enable them to maneuver into narrow reef gaps, while a powerful suction mechanism in the facilitates prey extraction from hiding spots. Adapted for durophagous feeding, they possess strong musculature and teeth with cusps suited for crushing hard-shelled organisms, allowing efficient processing of mollusks and crustaceans. During the day, they rest motionless on the seafloor, conserving energy for evening hunts.

Reproduction and life history

Zebra sharks (Stegostoma fasciatum) are oviparous, reproducing by laying eggs contained within leathery, purse-shaped capsules equipped with curly tendrils for attachment to substrates. Females typically deposit 20 to 50 eggs annually, though production varies among individuals. occurs via male claspers, with mating behaviors including biting and suction to the female's pectoral fins. Egg incubation lasts 4 to 6 months in , influenced by water temperature, yielding hatchlings measuring 20 to 36 cm in total length. In the wild, hatching times may extend to 7.5 to 10 months. Facultative has been documented in captive females isolated from males, enabling through mechanisms such as automixis, as confirmed by genetic analyses of . This reproductive plasticity was first observed in 2007, with one female producing 15 pups over four years without fertilization. Sexual maturity is attained by females at approximately 1.5 m total length after 6 to 8 years, and by males at 1.5 to 1.8 m after about 7 years. Growth is slow, with juveniles exhibiting dark stripes that transition to spotted patterns in adults. Lifespan in the wild averages 25 to 30 years, though captive individuals may exceed this.

Human interactions and conservation

Fisheries and trade impacts

The zebra shark (Stegostoma tigrinum, formerly S. fasciatum) is captured in artisanal and small-scale demersal fisheries across its Indo-West Pacific range, often using bottom-set gillnets, traps, or hook-and-line gear targeting reef-associated species. These fisheries utilize the shark for its , which is consumed fresh or dried-salted, and processed into fishmeal, while its liver oil is extracted for vitamins. Fins are harvested for the international shark fin trade, primarily destined for Asian markets where they command prices based on size and quality, contributing to in regions with limited management. In areas like and the , such captures occur as targeted fishing or , exacerbating vulnerability due to the species' slow growth, late maturity (reaching at 1.8–2.0 m total length after 5–6 years), and low (2–4 large eggs per , with long incubation periods). International trade in live specimens for the aquarium industry poses additional pressure, as juvenile zebra sharks are prized for displays owing to their docile and distinctive juvenile striping that fades to adult spots. Exports from countries like and supply facilities in , , and , with the maintained in over 100 aquaria worldwide; however, high post-capture mortality during shipping and challenges in captive amplify impacts on wild stocks. Regional variations exist: in , fishing pressure is minimal due to protective regulations, classifying the population as Least Concern locally, but globally, unregulated fisheries have driven inferred declines of over 50% in some areas since the 1970s, factoring into its Endangered IUCN status. Lack of species-specific catch data hinders precise quantification, as zebra sharks are often reported under aggregated "shark" categories in FAO statistics, masking targeted removals; for instance, Sea Around Us reconstructions estimate sporadic but consistent landings in the and western Pacific, underscoring the need for improved monitoring to assess trade-driven depletion. Enforcement gaps in finning bans and aquarium export quotas further enable illegal trade, with fins occasionally identified in markets via genetic analyses, linking to broader chondrichthyan declines from finning practices that discard carcasses.

Threats and population status

The zebra shark (Stegostoma fasciatum) is classified as Endangered on the , with the assessment dated June 22, 2023, under criteria A2bcd indicating observed, estimated, projected, or inferred population reductions. This status reflects significant declines across much of its range, driven primarily by exploitation in inshore fisheries targeting the species for its , fins, , and liver oil, as well as incidental capture as in gillnets, traps, and trawls. Populations have undergone dramatic reductions, with estimates of up to 90% decline over approximately three generations (about 45 years, given maturity at 5-6 years and lifespan of 25-30 years) in heavily fished areas such as and . In regions like , particularly Raja Ampat, local populations have dwindled to critically low levels, with fewer than 20 individuals remaining by 2020, rendering them functionally extinct in parts of their historical range due to intense fishing pressure and habitat degradation. , including dynamite fishing and , exacerbate threats by damaging shallow and sandy bottom habitats essential for the species' foraging and nursery grounds. Coastal development further contributes to habitat loss, though remains the dominant causal factor in population reductions. Regional variations exist; off , populations appear stable with minimal threats from low-level bycatch in protected fisheries, leading to a regional IUCN assessment of Least Concern. However, the species' slow reproductive rate—oviparous with litters of 1-5 eggs, long maturation times, and site fidelity making recolonization difficult—amplifies vulnerability to even moderate exploitation, hindering recovery in depleted areas. Overall, global trends indicate ongoing declines without strengthened management, underscoring the need for targeted conservation to address fishery impacts.

Conservation measures and research

The zebra shark (Stegostoma fasciatum) is assessed as Endangered on the , based on evidence of population declines exceeding 50% over three generations primarily from capture in demersal and inshore fisheries for meat, fins, and liver oil. Key conservation measures include targeted reintroduction programs and initiatives. The StAR Project, launched in 2020 by a coalition of over 90 organizations including ReShark, , and various aquariums, translocates captive-bred juveniles to depleted sites in Raja Ampat, , where local populations had fallen to approximately 20 individuals by 2020. The initiative plans to release 200–300 sharks to foster self-sustaining populations, with 24 pups hatched successfully for release by mid-2024. Contributing aquariums, such as Point Defiance & Aquarium, produced seven viable eggs in September 2025 for the program, emphasizing genetic matching to wild stocks. Regional protections vary; in , the species is rated Least Concern with sustainable fishery management, while fishing bans in parts of support recovery efforts. Ongoing informs these measures through genetic analyses demonstrating population structuring at scales finer than IUCN zones, enabling precise management units. Acoustic studies reveal strong site fidelity to aggregation areas, guiding marine protected area designations in southeast and elsewhere. Captive studies on age, growth, and diet at facilities like provide baseline data for monitoring translocated individuals' survival and reproduction.

Captivity and breeding programs

Zebra sharks (Stegostoma tigrinum) are maintained in numerous public aquariums worldwide due to their hardiness in captivity and appeal to visitors. Institutions such as the Aquarium and have implemented dedicated husbandry and breeding protocols, including rigorous record-keeping of oviposition events to track . These sharks, being oviparous, deposit leathery, purse-shaped egg cases that require specific incubation conditions, such as controlled and temperature, to achieve viable hatching rates around 25% in captive settings. Captive breeding programs have achieved notable success, producing offspring for display and conservation efforts. For instance, Loro Parque's eight-year program as of 2022 has focused on enhancing genetic diversity through managed pairings. techniques have shown promise, with trials at the yielding fertilized eggs in zebra sharks, bypassing challenges in mating observed even when males and females cohabitate. However, reproduction remains inconsistent, prompting reliance on supplementary methods. Parthenogenesis, an asexual reproductive mode, has been documented in captive female zebra sharks isolated from males. A notable case involved "Leonie" at Australia's Reef HQ Aquarium, who produced pups via parthenogenesis in 2017 after prior sexual reproduction, marking the first such switch in a shark. Similar events occurred at the Burj Al Arab Aquarium, where annual parthenogenetic litters were observed starting in 2008. Parthenogenetic offspring exhibit higher post-hatching mortality and slower growth compared to sexually produced young, limiting their viability for long-term programs. Conservation-oriented breeding initiatives, such as the Stegostoma tigrinum Augmentation and Recovery (StAR) Project, leverage surplus aquarium eggs for rewilding. In September 2025, Point Defiance Zoo & Aquarium dispatched seven viable eggs to partners in Indonesia's Raja Ampat for release, representing an early effort to bolster wild populations through captive-reared individuals. These programs aim to restore breeding populations in historic ranges, though long-term survival and integration into wild ecosystems require ongoing monitoring.

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