California sea hare explained

The California sea hare (Aplysia californica) is a species of sea slug in the sea hare family, Aplysiidae.[1] It is found in the Pacific Ocean, off the coast of California in the United States and northwestern Mexico.

Distribution

A. californica is found along the coast of California, United States, and northwestern Mexico (including the Gulf of California). Aplysia species inhabit the photic zone to graze on algae, mainly the intertidal, usually not deeper than .[2]

Description

The maximum length recorded for the California sea hare is 75cm (30inches) when crawling, thus fully extended, although most adult specimens are half this size or smaller. Adult animals can weigh up to 7kg (15lb).[3] A closely related species, Aplysia vaccaria, the black sea hare, can grow larger still.

A California sea hare is typically reddish-brown to greenish-brown, but the color varies based on the algae it ingests. Each sea hare houses four tentacles, with two on the head sheltering the eyes, and two on the face surrounding the mouth. The body has two folds, called parapodia, which envelop the gills for protection but enable water to get by. Below the body is a muscle that allows mobility, almost like a foot. The California sea hare also has an internal shell to protect its organs. [4]

Lifecycle

Like all sea hares, the California sea hare is hermaphroditic, simultaneously acting as male and female during mating. A. californica is known to form mating chains with up to 20 animals. The eggs are yellow-green, and change after 8–9 days into a brown color before larvae hatch. Mating is most prominent during the summer following water temperature rise to 17°C.

A. californica has a generation time of 19 weeks: Days 1-37 after hatching from the egg comprise the planktonic stage, days 34-37 are the metamorphic stage, and days 45-80 are the juvenile stage. At about day 30, the larvae move on from the planktonic stage and begin to roost on algae, typically red algae. The larvae eat enough to double their weight every 10 days for the following 3 months while they undergo metamorphosis.[5] Reproductive maturity is reached 85 days after hatching (133 days after deposition of the fertilized eggs). The development of the nervous system lasts for 140 days.[6] Often, the California sea hare dies shortly after laying eggs.[7] Cooler temperatures (14-25°C, or 57-77°F) delay spawning and have been shown to extend the lifespan.

Sexual reproduction

At the base of the right anterior tentacle is the aperture from which the penis can protrude. The genital aperture lies at the anterior end of the mantle cavity, a seminal grove arises from it and runs forward to the penis, at the base of the anterior tentacle.

Coupling lasts for hours or sometimes for days, although the actual passage of the sperm may take only a few minutes. Egg laying normally has to be triggered by copulation, but it occurs spontaneously in individuals kept in isolation for up to 3–4 months (typically these eggs are unfertilized).[6] Copulation occurs most frequently in the early morning, and rarely after 12:30 pm.[8] An individual animal weighing 2,600g was recorded to have laid about 500 million eggs at 27 separate times during less than five months.

Feeding habits

Like all Aplysia species, the California sea hare is herbivorous. Its diet consists primarily of red algae such as Laurencia pacifica, Plocamium pacificum, and Ceramium eatonianum, which give the animal its typically reddish or pinkish coloration. Some California sea hares will appear more brown, which helps them blend into their surroundings. [9] A. californica resembles the food on which it grazes, and cannot be distinguished easily from the seaweed unless the animal is moving.[6] When the sea hares eat algae, they consume toxins, which they store in themselves to repel predators. They can also release these toxins as a purple ink, which will also discourage predators from attacking them.

Predators

Because of the toxins in its body that come from consuming algae, the California sea hare has very few predators. Predators include starfish, lobsters,[10] and the ophistobranch Navanax inermis which will take juveniles.[11]

When it is considerably disturbed, the sea hare is capable of releasing two different kinds of ink from different locations within its mantle cavity, much in the way an octopus does. One ink is reddish-purple and comes from what is called the purple ink gland, while the other is milky white, comes from what is called the opaline gland, and contains the aversive chemical opaline.

Protective mechanisms

Inking provides protection from spiny lobsters, a major predator of sea hares, by means of three mechanisms:[12] chemical deterrence, sensory disruption, and phagomimicry.

The typical defence response of the sea hare to a predator is the release of chemicals such as free amino acids, ink from the ink gland, and opaline from the opaline gland. Chemical deterrence involves the release of toxic chemicals that are noxious to predators and rapidly dissuades them from feeding. Ink creates a dark, diffuse cloud in the water that disrupts the sensory perception of the predator by acting as a screen or decoy. The opaline, which affects the senses dealing with feeding, causes the predator to instinctively attack the cloud of chemicals as if it were indeed food.[13]

Laboratory use

A. californica has become a valuable laboratory animal, used in studies of the neurobiology of learning and memory, and is especially associated with the work of Nobel laureate Eric Kandel.[14]

Its ubiquity in synaptic plasticity studies can be attributed to its simple nervous system, consisting of just 20,000 large, easily identified neurons with cell bodies up to 1 mm in size.[15] Despite its seemingly simple nervous system, though, A. californica is capable of a variety of nonassociative and associative learning tasks, including sensitization, habituation, and classical and operant conditioning. Study typically involves a reduced preparation of the gill and siphon withdrawal reflex.[16]

Sequencing of its whole genome was approved as a priority by National Human Genome Research Institute in March 2005.[17] [18] The draft genome is available on the UCSC Genome browser.[19]

References

Further reading

Notes and References

  1. Rosenberg, G.; Bouchet, P. (2011). Aplysia californica J. G. Cooper, 1863. Accessed through: World Register of Marine Species at http://www.marinespecies.org/aphia.php?p=taxdetails&id=240765 on 2012-03-31
  2. Book: Kandel, Eric. R.. Behavioral Biology of Aplysia: Contribution to the Comparative Study of Opisthobranch Molluscs. 1979. W. H. Freeman and Company. San Francisco.
  3. MacFarland, F.M. (1966). Studies of the opisthobranchiate mollusks of the Pacific coast of North America. Mem. Calif. Acad. Sc. VI, p. 1-596
  4. Web site: Dice . Samantha . Aplysia californica . 2022-10-20 . Animal Diversity Web . en.
  5. Web site: Pacific . Aquarium of the . California Brown Sea Hare . 2022-10-20 . www.aquariumofpacific.org . en.
  6. Kandel, Eric Behavioral biology of Aplysia. W.H. Freeman and Co., San Francisco.
  7. Web site: Pacific . Aquarium of the . California Brown Sea Hare . 2022-10-20 . www.aquariumofpacific.org . en.
  8. Newby 1972
  9. Web site: 2021-06-03 . Insided Look: California Sea Hare . 2022-10-20 . Catalina Island Marine Institute . en-US.
  10. Watkins et al. Lobster attack induces sensitization in the sea hare, Aplysia californica. J Neurosci. 2010 Aug 18;30(33):11028-31.
  11. Janet L. Leonard and Ken Lukowiak. The Behavior of Aplysia californica Cooper (Gastropoda; Opisthobranchia): I. Ethogram. Behaviour Vol. 98, No. 1/4 (Aug., 1986), pp. 320-360
  12. https://web.archive.org/web/20091115142409/http://www2.gsu.edu/~biocdd/Publications/Reprints/2007/Derby%20et%20al%20joun%20chem%20eco%202007.pdf . 15 November 2009 . Chemical Composition of Inks of Diverse Marine Molluscs Suggests Convergent Chemical Defenses . Derby, Charles D. . Kicklighter, Cynthia E. . Johnson, P. M. . Xu Zhang . amp. 29 March 2007 . Journal of Chemical Ecology . 2007 . 33 . 1105–1113 . 9 May 2015 . 10.1007/s10886-007-9279-0 . dead . 17393278 . 2007JCEco..33.1105D . 92064 .
  13. Web site: Sea Hares Lose Their Lunch . Inman, Mason . 29 March 2005 . Sciencemag.org. 10 May 2015.
  14. Web site: Edythe McNamee and Jacque Wilson. A Nobel Prize with help from sea slugs. 2020-10-31. CNN. 14 May 2013.
  15. Book: Redish, Edward F.. Teaching physics : with the physics suite. 2003. John Wiley & Sons. 0-471-39378-9. Hoboken, NJ. 53287676.
  16. Web site: December 2011. Joseph Castro 30. Sea Slug Offers Clues to Improving Long-Term Memory. 2020-10-31. livescience.com. 30 December 2011. en.
  17. http://www.genome.gov/10002154 Approved Sequencing Targets
  18. [National Human Genome Research Institute]
  19. http://genome.ucsc.edu/cgi-bin/hgGateway?org=Sea+hare&db=aplCal1 aplCal1 at UCSC Genome Browser Gateway