Lemon shark

Lemon shark
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Chondrichthyes
Subclass: Elasmobranchii
Superorder: Selachimorpha
Order: Carcharhiniformes
Family: Carcharhinidae
Genus: Negaprion
Species: N. brevirostris
Binomial name
Negaprion brevirostris
(Poey, 1868)
Range of the lemon shark
Synonyms

Carcharias fronto Jordan & Gilbert, 1882
Hypoprion brevirostris Poey, 1868

The lemon shark (Negaprion brevirostris) is a stocky and powerful shark. A member of the family Carcharhinidae, lemon sharks can grow to 10 feet (3.0 m) in length.[2] They are often found in shallow subtropical waters and are known to inhabit and return to specific nursery sites for breeding.[3] Often feeding at night, these sharks use electroreceptors to find their main source of prey, fish.[4] Lemon sharks use the many benefits of group living such as enhanced communication, courtship, predatory behavior, and protection.[5] This species of shark is viviparous, and the females are polyandrous and have a biennial reproductive cycle.[3] Lemon sharks are not thought to be a large threat to humans.[6]

Taxonomy

The lemon shark was first named and described in 1868 by Felipe Poey.[6] He originally named it Hypoprion brevirostris, but later renamed it Negaprion brevirostris. [6] The lemon shark has also appeared in literature as Negaprion fronto and Carcharias fronto (Jordan and Gilbert, 1882), Carcharias brevirostris (Gunther, 1870), and Carcharhinus brevirostris (Henshall, 1891).[6]

Description

The shark's yellow colouring serves as a perfect camouflage when swimming over the sandy seafloor in its coastal habitat.[7] The lemon shark commonly attains a length of 2.4 to 3.1 m (7.9 to 10.2 ft) and a weight up to 90 kg (200 lb) by adulthood, although sexual maturity is attained at 2.24 m (7.3 ft) in males and 2.4 m (7.9 ft) in females.[8] The maximum recorded length and weight is 3.43 m (11.3 ft) and 183.7 kg (405 lb), respectively.[9] It has a flattened head with a short, broad snout, and the second dorsal fin is almost as large as the first. Lemon sharks have electroreceptors concentrated in their heads, called the ampullae of Lorenzini.[10] These receptors detect electrical pulses emitted by potential prey and allow these nocturnal feeders to sense their prey in the dark.[10]

Distribution

Lemon sharks are found from New Jersey to southern Brazil in the tropical western Atlantic Ocean. They also live off the coast of west Africa in the southeastern Atlantic.[11] In addition, lemon sharks have been found in the eastern Pacific, from southern Baja California to Ecuador.[11] This species of shark often occupies the subtropical shallow waters of coral reefs, mangroves, enclosed bays, and river mouths; however, lemon sharks have also been found in the open ocean down to depths of 92 m.[12] Although lemon sharks do swim up rivers, they never seem to travel very far into fresh water. They are found in open water primarily during migrations, and tend to stay along the continental and insular shelves for most of their lives.[13]

Habitat selection

A lemon shark with many remoras clinging to its body

Information about activity patterns and the use of space is important in understanding a species’ behavioral ecology.[14] Animals often make decisions about habitat use by evaluating their environment’s abiotic conditions that serve as valuable indicators of good foraging sites or predator-safe locations.[15] Lemon sharks select habitats in warm and shallow water with a rocky or sandy bottom.[14]

The environmental temperature influences an individual’s body temperature, which ultimately affects physiological processes such as growth and metabolism.[15] Lemon sharks, therefore, select warm-water habitats to maintain optimal metabolic levels. They are believed to avoid areas with thick seagrasses because they make finding prey more difficult.[15] Lemon sharks tend to live in or near shallow-water mangroves, which are often the nursery areas of several species of fish. One theory is that lemon sharks select mangrove habitats due to the abundance of prey that resides there, while another theory posits that mangroves provide a safe haven from adult lemon sharks that occasionally feed on juvenile sharks and are unable to enter the shallow waters.[16] Ontogenetic niche shifts, or changes in an animal’s niche breadth or position, to deeper waters are known to occur in relation to a lemon shark’s size. These changes occur due to the dramatic decrease in the risk of predation as body size increases.[15] Habitat selection clearly depends on a variety of biological and environmental variables.

The mangrove areas that lemon sharks inhabit are often referred to as their nursery sites. A nursery site is best defined as the most common area sharks are encountered, the location sharks tend to remain at after birth or frequently return to, and the habitat used by shark groups repeatedly for several years.[17] The nursery ground concept has been known and studied for at least a century. In addition, fossil evidence from 320 million years ago suggests the use of shallow, coastal areas as pupping grounds is primitive.[17]

Feeding behavior

Solitary lemon shark at Tiger Beach, Bahamas

Lemon sharks have proven to be an ideal model species to challenge the belief that all sharks are asynchronous opportunistic predators due to their tendency to use nursery areas for an extended period of time.[18] Lemon shark feeding behaviors are easy to determine because their well-defined home ranges are conducive to accurate calculations of both the amount and types of prey in the environment and diet of a lemon shark.

Lemon sharks feed at night and are mainly piscivorous; however, they have been known to feed on crustaceans and benthic organisms.[4] Intraspecific predation, or cannibalism, of juvenile lemon sharks by larger conspecifics has also been documented.[15] Rather than feeding randomly, lemon sharks display a high degree of preference for certain species and size of prey when environmental conditions are favorable.[19] They also tend to prefer a prey when it is more abundant and available. Lemon sharks feed selectively on species that are slower and more easily captured by using a stalking technique.[20] For example, parrotfish and mojarras are common prey in the Bahamas because they use camouflage rather than an escape response and are vulnerable due to their stationary foraging behavior. Lemon sharks feed on prey that are intermediate in size compared to other available prey.[4] This tendency can be explained by the tradeoff between the probability of capture and the profitability when it comes to prey size. The general trend in the foraging behavior of lemon sharks conforms to the optimal foraging theory, which suggests a positive relationship between prey selectivity and availability.[18]

Rather than rolling on their sides to rip off chunks of prey, lemon sharks approach their victim with speed only to brake suddenly using their pectoral fins upon contact.[4] The animal then jabs forward multiple times until it has a good grasp of its prey in its jaw and proceeds to shake its head from side to side until it tears off a chunk of flesh. A feeding frenzy, or large swarm of other sharks, then forms as the individuals sense the blood and bodily fluids released from the prey.[4] Sounds of struggling prey also attract groups of sharks, suggesting they use sound detection for predation.[20] Group feeding behavior such as pack hunting or communal scavenging was observed in a study in which pieces of the same stingray were found in the stomachs of several lemon shark individuals that were caught and examined.

Social behavior

Many species of sharks, including the lemon shark, are known to actively prefer to be social and live in groups or loose aggregations.[5] A few benefits of group living are enhanced communication, courtship, predatory behavior, and protection. Group living and a preference for social interaction is thought to be important for the survival and success of juvenile lemon sharks.[5] Group living, though, comes with its costs. A few include increased risk of disease, ease of parasite transmission, and competition for resources.[21]

Lemon sharks are found in groups based on similar size. Passive sorting mechanisms such as the ontogenetic habitat shift discussed above have been postulated to contribute to the formation of groups organized based on size or sex.[22] One exception to this behavior is that sharks up to 1 year old show no preference for groups of matched or unmatched size.[5] One hypothesis for this finding is that it is beneficial for the small young lemon sharks to associate with the larger individuals because they have an easier time gathering information about the habitat regarding elements such as predators and local prey.[5] Lemon shark groups form due to an active desire to be social rather than a simple attraction to the same limited resources such as the mangrove habitat and prey associated with such a habitat.[22]

Many studies have related brain size with complex social behaviors in mammals and birds.[22] The brain of a lemon shark, being comparable in relative mass to that of a mammal or bird, suggests they have the ability to learn from social interactions, cooperate with other individuals, and have the potential to establish dominance hierarchies and stable social bonds.[5]

Reproduction

Lemon sharks congregate for reproduction at special mating grounds.[3] Females give birth to their young in shallow nursery waters to which they are philopatric. Lemon shark young are known as pups and they tend to remain in the nursery area for several years before venturing into deeper waters.[23] Lemon sharks are viviparous, meaning that the mother directly transfers nutrients to her young via a yolk-sac placenta and the young are born alive.[3] Fertilization is internal and occurs after a male lemon shark holds a female, bites her, and inserts his clasper into her cloaca.[3] Female lemon sharks are polyandrous and sperm competition occurs due to their ability to store sperm in an oviducal gland for several months.[3] Several studies suggest that polyandry in female lemon sharks has adapted out of convenience, rather than indirect genetic benefits to offspring.[24] This type of polyandry is termed as convenience polyandry because females are believed to mate multiple times to avoid harassment by males.[24] Females have a biennial reproductive cycle, requiring a year for gestation and another year for oogenesis and vitellogenesis after parturition. Lemon sharks reach sexual maturity around 12–16 years of age and have low fecundity.[3] The maximum number of pups recorded in a litter is 18.[3]

Importance to humans

This species of shark is best known in its behavior and ecology, mainly due to the work of Samuel Gruber at the University of Miami, who has been studying the lemon shark both in the field and in the laboratory since 1967.[14] The population around the Bimini Islands in the western Bahamas, where Gruber's Bimini Biological Field Station is situated, is probably the best known of all shark populations.[14] As of 2007, this population was experiencing a severe decline and may disappear altogether as a result of destruction of the mangroves for construction of a golf resort.[14]

The lemon shark is targeted by commercial and recreational fishermen along the U.S. Atlantic Ocean, Caribbean, and in the eastern Pacific Ocean due to its prized meat, fins, and skin.[13] Lemon shark skin may be used for leather and its meat can be consumed and is believed to be a delicacy in many cultures.[13] Concern exists that over-fishing has led the lemon shark populations in the western north Atlantic and eastern Pacific Ocean to decline.[6]

Lemon sharks do not represent a large threat to humans. The International Shark Attack File lists 10 unprovoked lemon shark bites, none of which was fatal.[6]

See also

References

This article incorporates text from the ARKive fact-file "Lemon shark" under the Creative Commons Attribution-ShareAlike 3.0 Unported License and the GFDL.

  1. Sundström, L.F. (2005). "Negaprion brevirostris". IUCN Red List of Threatened Species. Version 2011.1. International Union for Conservation of Nature. Retrieved 20 August 2011.
  2. Lemon Shark - SharkSurvivor.com
  3. 1 2 3 4 5 6 7 8 Feldheim, K. A.; Gruber, S. H.; Ashley, M. V. (22 August 2002). "The breeding biology of lemon sharks at a tropical nursery lagoon". Proceedings of the Royal Society B: Biological Sciences 269 (1501): 1655–1661. doi:10.1098/rspb.2002.2051.
  4. 1 2 3 4 5 Bright, Michael (2000). The private life of sharks : the truth behind the myth. Mechanicsburg, PA: Stackpole Books. ISBN 0-8117-2875-7.
  5. 1 2 3 4 5 6 Guttridge, T (August 2009). "Social preferences of juvenile lemon sharks, Negaprion brevirostris". Animal Behaviour 78 (2): 543–548. doi:10.1016/j.anbehav.2009.06.009. Retrieved 25 October 2013.
  6. 1 2 3 4 5 6 "Florida Museum of Natural History". Retrieved 15 November 2013.
  7. 3.Carwardine, M. and Watterson, K. (2002) The Shark Watcher’s Handbook. BBC Worldwide Ltd, London.
  8. "FLMNH Ichthyology Department: Lemon Shark". flmnh.ufl.edu. Retrieved 2014-01-25.
  9. Negaprion brevirostris, Lemon shark - FishBase
  10. 1 2 "Evaluation of a Three-Dimensional Magnetic Barrier on Juvenile Negaprion brevirostris". Retrieved 15 November 2013.
  11. 1 2 "Lemon shark". Retrieved 15 November 2013.
  12. "Marinebio". Retrieved 15 November 2013.
  13. 1 2 3 "IUCN Red List of Threatened Species". Retrieved 15 November 2013.
  14. 1 2 3 4 5 Samuel H. Gruber, John F. Morrissey (1993). "Habitat selection by juvenile lemon sharks, Negaprion brevirostris". Environmental Biology of Fishes 38 (4): 311–319. doi:10.1007/BF00007524. Retrieved 25 October 2013.
  15. 1 2 3 4 5 Guttridge, TL; Gruber, SH; Franks, BR; Kessel, ST; Gledhill, KS; Uphill, J; Krause, J; Sims, DW (20 January 2012). "Deep danger: intra-specific predation risk influences habitat use and aggregation formation of juvenile lemon sharks Negaprion brevirostris". Marine Ecology Progress Series 445: 279–291. doi:10.3354/meps09423.
  16. Wetherbee, BM; Gruber, SH; Rosa, RS (7 August 2007). "Movement patterns of juvenile lemon sharks Negaprion brevirostris within Atol das Rocas, Brazil: a nursery characterized by tidal extremes". Marine Ecology Progress Series 343: 283–293. doi:10.3354/meps06920.
  17. 1 2 Franks, Bryan (October 2007). "The Spatial Ecology and Resource Selection of Juvenile Lemon Sharks (Negaprion brevirostris) in their Primary Nursery Areas" (PDF). Drexel University. Retrieved 25 October 2013.
  18. 1 2 Cortés, Enric; Samuel H. Grube (March 1990). "Diet, Feeding Habits and Estimates of Daily Ration of Young Lemon Sharks, Negaprion brevirostris (Poey)". Copeia 1: 204. doi:10.2307/1445836. JSTOR 1445836.
  19. Newman, SP; Handy, RD; Gruber, SH (5 January 2010). "Diet and prey preference of juvenile lemon sharks Negaprion brevirostris". Marine Ecology Progress Series 398: 221–234. doi:10.3354/meps08334.
  20. 1 2 Banner, A (June 1972). "Use of Sound in Predation by Young Lemon Sharks, Negaprion brevirostris (Poey)". Bulletin of Marine Science 22 (2). Retrieved 25 October 2013.
  21. Alexander, R D (November 1974). "The Evolution of Social Behavior". Annual Review of Ecology and Systematics 5 (1): 325–383. doi:10.1146/annurev.es.05.110174.001545.
  22. 1 2 3 Jacoby, David M P; Croft, Darren P; Sims, David W (1 December 2012). "Social behaviour in sharks and rays: analysis, patterns and implications for conservation". Fish and Fisheries 13 (4): 399–417. doi:10.1111/j.1467-2979.2011.00436.x.
  23. "BBC Nature". Retrieved 15 November 2013.
  24. 1 2 DiBATTISTA, JOSEPH D.; FELDHEIM, KEVIN A.; GRUBER, SAMUEL H.; HENDRY, ANDREW P. (9 January 2008). "Are indirect genetic benefits associated with polyandry? Testing predictions in a natural population of lemon sharks". Molecular Ecology 17 (3): 783–795. doi:10.1111/j.1365-294X.2007.03623.x.

External links

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