Great hammerhead

Great hammerhead
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Chondrichthyes
Subclass: Elasmobranchii
Superorder: Selachimorpha
Order: Carcharhiniformes
Family: Sphyrnidae
Genus: Sphyrna
Species: S. mokarran
Binomial name
Sphyrna mokarran
(Rüppell, 1837)
Range of the great hammerhead
Synonyms

Sphyrna ligo Fraser-Brunner, 1950
Zygaena dissimilis Murray, 1887
Zygaena mokarran Rüppell, 1837

The great hammerhead (Sphyrna mokarran) is the largest species of hammerhead shark, belonging to the family Sphyrnidae, attaining a maximum length of 6.1 m (20 ft). It is found in tropical and warm temperate waters worldwide, inhabiting coastal areas and the continental shelf. The great hammerhead can be distinguished from other hammerheads by the shape of its "hammer" (called the "cephalofoil"), which is wide with an almost straight front margin, and by its tall, sickle-shaped first dorsal fin. A solitary, strong-swimming apex predator, the great hammerhead feeds on a wide variety of prey ranging from crustaceans and cephalopods, to bony fishes, to smaller sharks. Observations of this species in the wild suggest that the cephalofoil functions to immobilize stingrays, a favored prey. This species has a viviparous mode of reproduction, bearing litters of up to 55 pups every two years.

Although potentially dangerous, the great hammerhead rarely attacks humans. It sometimes behaves inquisitively toward divers and should be treated with respect. This shark is heavily fished for its large fins, which are extremely valuable on the Asian market as the main ingredient of shark fin soup. As a result, great hammerhead populations are declining substantially worldwide, and it has been assessed as Endangered by the International Union for Conservation of Nature (IUCN).

Taxonomy and phylogeny

The great hammerhead was first described as Zygaena mokarran in 1837 by the German naturalist Eduard Rüppell. The name was later changed to the current Sphyrna mokarran.[2] However, for many years the valid scientific name for the great hammerhead was thought to be Sphyrna tudes, which was coined in 1822 by Achille Valenciennes. In 1950, Enrico Tortonese determined that the specimens illustrated by Valenciennes were in fact smalleye hammerheads, to which the name S. tudes then applied. As the next most senior synonym, Sphyrna mokarran became the great hammerhead's valid name. The lectotype for this species is a 2.5 m (8.2 ft) long male from the Red Sea.[3]



Eusphyra blochii





Sphyrna mokarran



Sphyrna zygaena





Sphyrna lewini





Sphyrna tudes



Sphyrna media





Sphyrna tiburo



Sphyrna corona







Phylogenetic tree of hammerhead sharks.[4]

Older studies based on morphology have generally placed the great hammerhead as one of the more derived members of its family, reflecting the traditional view that cephalofoil size gradually increased over the course of hammerhead shark evolution. However, this view has been refuted by phylogenetic analyses using nuclear and mitochondrial DNA, which found that the great hammerhead and the smooth hammerhead (S. zygaena) form a clade that is basal to all other Sphyrna species. These results also show that the first hammerheads to evolve had large rather than small cephalofoils.[4][5]

Distribution and habitat

The great hammerhead inhabits tropical waters around the world, between the latitudes of 40°N and 37°S. In the Atlantic Ocean, it is found from North Carolina to Uruguay, including the Gulf of Mexico and the Caribbean Sea, and from Morocco to Senegal, and the Mediterranean Sea. It is found all along the rim of the Indian Ocean, and in the Pacific Ocean from the Ryukyu Islands to Australia, New Caledonia, and French Polynesia, and from southern Baja California to Peru.[2] It may occur off Gambia, Guinea, Mauritania, Sierra Leone, and Western Sahara, but this has not been confirmed.[1] Great hammerheads may be found from inshore waters of less than 1 m (3.3 ft) deep, to a depth of 80 m (260 ft) offshore. They favor coral reefs, but also inhabit continental shelves, island terraces, lagoons, and deep water near land. They are migratory; populations off Florida and in the South China Sea have been documented moving closer to the poles in the summer.[3]

Description

The "hammer" of the great hammerhead is wide with a distinctively straight leading edge. The individual pictured here also demonstrates the rolled swimming that the species employs as its primary form of locomotion.

The streamlined body of the great hammerhead with the expanded cephalofoil is typical of the hammerhead sharks. Adult great hammerheads can be distinguished from the scalloped hammerhead and the smooth hammerhead by the shape of the cephalofoil, which has a nearly straight front margin (as opposed to arched), with prominent medial and lateral indentations. The width of the cephalofoil is 2327% of the body length. The teeth are triangular and strongly serrated, becoming more oblique towards the corners of the mouth. There are 17 tooth rows on either side of the upper jaw with 23 teeth at the symphysis (the midline of the jaw), and 1617 teeth on either side of the lower jaw and 13 at the symphysis.[2]

The first dorsal fin is distinctive, being very tall and strongly falcate (sickle-shaped), and originates over the insertions of the pectoral fins. The second dorsal fin and anal fin are both relatively large, with deep notches in the rear margins. The pelvic fins are falcate with concave rear margins, in contrast to the straight-margined pelvic fins of the scalloped hammerhead. The skin is covered with closely placed dermal denticles. Each denticle is diamond-shaped, with 35 horizontal ridges leading to marginal teeth in smaller individuals, and 56 in larger ones. The great hammerhead is dark brown to light gray to olive above, fading to white on the underside. The fins are unmarked in adults, while the tip of the second dorsal fin may be dark in juveniles.[2][3]

The average great hammerhead measures up to 3.5 m (11 ft) long and weighs over 230 kg (510 lb). A small percentage of the population, mostly or all females, are much larger. The longest great hammerhead on record was 6.1 m (20 ft).[2][3] The heaviest known great hammerhead is a 4.4 m (14 ft) long, 580 kg (1,280 lb) female caught off Boca Grande, Florida in 2006. The weight of the female was due to her being pregnant with 55 near-natal pups.[6]

Biology and ecology

The great hammerhead is a solitary, nomadic predator that tends to be given a wide berth by other reef sharks. If confronted, they may respond with an agonistic display: dropping their pectoral fins and swimming in a stiff or jerky fashion.[7] Juveniles are preyed upon by larger sharks such as bull sharks (Carcharhinus leucas), while adults have no major predators.[2] Yellow jacks (Carangoides bartholomaei) have been seen rubbing themselves against the hammerhead's flanks, possibly to rid themselves of parasites.[8] Schools of pilot fish (Naucrates ductor) sometimes accompany the great hammerhead.[9] The great hammerhead is parasitized by several species of copepods, including Alebion carchariae, A. elegans, Nesippus orientalis, N. crypturus, Eudactylina pollex, Kroyeria gemursa, and Nemesis atlantica.[2]

Feeding

Stingrays are a favored prey of the great hammerhead.

An active predator with a varied diet, known prey of the great hammerhead include invertebrates such as crabs, lobsters, squid, and octopus, bony fishes such as tarpon, sardines, sea catfishes, toadfish, porgies, grunts, jacks, croakers, groupers, flatfishes, boxfishes, and porcupine fishes, and smaller sharks such as smoothhounds.[3] At Rangiroa Atoll, great hammerheads prey opportunistically on grey reef sharks (Carcharhinus amblyrhynchos) that have exhausted themselves pursuing mates.[10] The species is known to be cannibalistic.[2]

The favorite prey of the great hammerhead are rays and skates, especially stingrays. The venomous spines of stingrays are frequently found lodged inside its mouth and do not seem to bother the shark as one specimen caught off Florida had 96 spines in and around its mouth. Great hammerheads primarily hunt at dawn or dusk, swinging their heads in broad angles over the sea floor so as to pick up the electrical signatures of stingrays buried in the sand, via numerous ampullae of Lorenzini located on the underside of the cephalofoil. The cephalofoil also serves as a hydrofoil that allows the shark to quickly turn around and strike at a ray once detected.[11] Off Florida, large hammerheads are often the first to reach newly baited sharklines, suggesting a particularly keen sense of smell.[3]

Another function of the cephalofoil is suggested by an observation of a great hammerhead attacking a southern stingray (Dasyatis americana) in the Bahamas: the shark first knocked the ray to the sea bottom with a powerful blow from above, and then pinned it with its head while pivoting to take a large bite from each side of the ray's pectoral fin disc. This effectively crippled the stingray, which was then picked up in the jaws and sawed apart with rapid shakes of the head.[12] A great hammerhead has also been seen attacking a spotted eagle ray (Aetobatus narinari) in open water by taking a massive bite out of one of its pectoral fins. The ray thus incapacitated, the shark once again used its head to pin it to the bottom and pivoted to take the ray in its jaws head-first. These observations suggest that the great hammerhead seeks to disable rays with the first bite, a strategy similar to that of the great white shark (Carcharodon carcharias), and that its cephalofoil is an adaptation for prey handling.[13]

Rolled swimming and energy conservation

A 2016 study of specimens logged with accelerometers showed that great hammerhead sharks reduce drag and lessen energy expenditure by swimming on their side in a posture termed "rolled swimming". The shark uses its very large dorsal fin to help achieve lift, a habit that had previously been noted in captive specimens, and may spend up to 90% of its time in this swimming orientation. The technique is thought to save ~10% in drag and consequently movement costs.[14]

Life history

Great hammerhead embryos are connected to their mother by a placenta during gestation.

As with other hammerhead sharks, great hammerheads are viviparous: once the developing young use up their supply of yolk, the yolk sac is transformed into a structure analogous to a mammalian placenta. Unlike most other sharks, which mate on or near the sea bottom, great hammerheads have been observed mating near the surface. In one account from the Bahamas, a mating pair ascended while swimming around each other, mating when they reached the surface.[2] Females breed once every two years, giving birth from late spring to summer in the Northern Hemisphere and from December to January in Australian waters.[1] The gestation period is 11 months.[2] The litter size ranges from 655 pups, with 2040 being typical.[6] The young measure 50–70 cm (19.5–27.5 in) at birth; males reach maturity at 2.3–2.8 m (7.5–9.2 ft) long and 51 kg (112 lb) and the females at 2.5–3.0 m (8.2–9.8 ft) and 41 kg (90 lb). The young differ from the adults in having a rounded frontal margin on the head.[1][2] The typical lifespan of this species is 2030 years;[2] the record Boca Grande female was estimated to be 4050 years old.[6]

Human interactions

A great hammerhead caught by a sport fisherman. Human exploitation now threatens the survival of this species.

With its large size and cutting teeth, the great hammerhead could seriously injure a human and caution should be exercised around them. This species has a (possibly undeserved) reputation for aggression and being the most dangerous of the hammerhead sharks.[15][16] Divers underwater have reported that great hammerheads tend to be shy or nonreactive toward humans.[8][11] However, there have been reports of great hammerheads approaching divers closely and even charging them when they first enter the water.[9][15] As of 2011, the International Shark Attack File lists 34 bites, 17 of them unprovoked and none fatal, attributable to hammerhead sharks of the genus Sphyrna. Due to the difficulty in identifying the species involved, it is uncertain how many were caused by great hammerheads. This shark has been confirmed to be responsible for only one (provoked) bite.[17]

The great hammerhead is regularly caught both commercially and recreationally in the tropics, using longlines, fixed bottom nets, hook-and-line, and trawls. Though the meat is rarely consumed, their fins are becoming increasing valuable due to the Asian demand for shark fin soup.[1] In addition, their skin used for leather, their liver oil for vitamins, and their carcasses for fishmeal.[2] The great hammerhead is also taken unintentionally as bycatch and suffers very high mortality, over 90% for fisheries in the northwest Atlantic and the Gulf of Mexico. Entanglement in shark nets around Australian and South African beaches is another source of mortality.[1]

Conservation status

The great hammerhead is extremely vulnerable to overfishing due to its low overall abundance and long generation time. Assessment of its conservation status is difficult as few fisheries separate the great hammerhead from other hammerheads in their reported catches. This species is listed as globally Endangered on the IUCN Red List. It is Endangered in the northwestern Atlantic and the Gulf of Mexico, where though it is a non-targeted species, populations have dropped 50% since the 1990s due to bycatch. It is also Endangered in the southwestern Indian Ocean, where large numbers of longline vessels operate illegally along the coasts for hammerheads and the giant guitarfish (Rhynchobatus djiddensis). The great hammerhead catch rate in Indian Ocean has declined 73% from 1978 to 2003, though it is yet undetermined whether these represent localized or widespread depletion. The great hammerhead is Critically Endangered along the western coast of Africa, where stocks have collapsed with an estimated 80% decline in the past 25 years. The West African Sub-Regional Fishing Commission (SRFC) has recognized the great hammerhead as one of the four most threatened species in the region, though fishing continues unmonitored and unregulated. Off northern Australia, this species was assessed as Data Deficient but at "high risk". Concern has arisen there over a substantial increase in illegal, unreported, and unregulated (IUU) fishing, reflecting the raising value of this shark's fins.[1]

No conservation measures specifically protecting the great hammerhead have been enacted. It is listed on Annex I, Highly Migratory Species, of the UN Convention on the Law of the Sea, though no management schemes have yet been implemented under this agreement. The banning of shark finning by countries and supranational entities such as United States, Australia, and the European Union, and international regulatory bodies such as the International Commission for the Conservation of Atlantic Tunas (ICCAT), should reduce fishing pressure on the great hammerhead.[1]

References

  1. 1 2 3 4 5 6 7 8 Denham, J.; Stevens, J.; Simpfendorfer, C.A.; Heupel, M.R.; Cliff, G.; Morgan, A.; Graham, R.; Ducrocq, M.; Dulvy, N.D; Seisay, M.; et al. (2007). "Sphyrna mokarran". IUCN Red List of Threatened Species. Version 2010.1. International Union for Conservation of Nature. Retrieved May 20, 2010.
  2. 1 2 3 4 5 6 7 8 9 10 11 12 13 Bester, Cathleen. Biological Profiles: Great Hammerhead. Florida Museum of Natural History Ichthyology Department. Retrieved on October 18, 2008.
  3. 1 2 3 4 5 6 Compagno, L.J.V. (1984). Sharks of the World: An Annotated and Illustrated Catalogue of Shark Species Known to Date. Rome: Food and Agricultural Organization. pp. 548549. ISBN 92-5-101384-5.
  4. 1 2 Lim, D.D.; Motta, P.; Mara, K.; Martin, A.P. (2010). "Phylogeny of hammerhead sharks (Family Sphyrnidae) inferred from mitochondrial and nuclear genes". Molecular Phylogenetics and Evolution. 55 (2): 572–579. doi:10.1016/j.ympev.2010.01.037. PMID 20138218.
  5. Cavalcanti, M.J. (2007). "A Phylogenetic Supertree of the Hammerhead Sharks (Carcharhiniformes: Sphyrnidae)". Zoological Studies. 46 (1): 6–11.
  6. 1 2 3 "Record Hammerhead Pregnant With 55 Pups". Discovery News. Associated Press. July 1, 2006. Archived from the original on June 22, 2011. Retrieved October 18, 2008.
  7. Martin, R.A. (March 2007). "A review of shark agonistic displays: comparison of display features and implications for shark–human interactions". Marine and Freshwater Behaviour and Physiology. 40 (1): 334. doi:10.1080/10236240601154872.
  8. 1 2 Great Hammerhead. Elasmodiver.com. Retrieved on October 18, 2008.
  9. 1 2 Stafford-Deitsch, J. (1999). Red Sea Sharks. Trident Press Ltd. pp. 9293. ISBN 1-900724-28-6.
  10. Whitty, J. (2007). The Fragile Edge: Diving and Other Adventures in the South Pacific. Houghton Mifflin Harcourt. p. 9. ISBN 0-618-19716-8.
  11. 1 2 Hammerschlag, Rick. Sandy Plains: Great Hammerhead Shark. ReefQuest Centre for Shark Research. Retrieved on October 18, 2008.
  12. Strong, W.R.; Snelson Jr., F.F. & Gruber, S.H. (September 19, 1990). "Hammerhead Shark Predation on Stingrays: An Observation of Prey Handling by Sphyrna mokarran". Copeia. American Society of Ichthyologists and Herpetologists. 1990 (3): 836840. doi:10.2307/1446449. JSTOR 1446449.
  13. Chapman, D.D.; Gruber, S.H. (May 2002). "A further observation of the prey-handling behavior of the great hammerhead shark, Sphyrna mokarran: predation upon the spotted eagle ray, Aetobatus narinari" (PDF). Bulletin of Marine Science. 70 (3): 947952.
  14. Payne, N. L.; Iosilevskii, G.; Barnett, A.; Fischer, C.; Graham, R. T.; Gleiss, A. C.; Watanabe, Y. Y. (2016). "Great hammerhead sharks swim on their side to reduce transport costs". Nature Communications. 7: 12289. doi:10.1038/ncomms12289. PMC 4963531Freely accessible. PMID 27457414.
  15. 1 2 Stafford-Deitsch, J. (2000). Sharks of Florida, the Bahamas, the Caribbean and the Gulf of Mexico. Trident Press Ltd. pp. 9091. ISBN 1-900724-45-6.
  16. Thornley, M.; Dante, V.; Wilson, P. & Bartholomew, W. (2003). Surfing Australia (second ed.). Tuttle Publishing. p. 264. ISBN 962-593-774-9.
  17. ISAF Statistics on Attacking Species of Shark. International Shark Attack File, Florida Museum of Natural History, University of Florida. Retrieved on April 24, 2009.

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