Aeolidia loui

Aeolidia loui is a species of sea slugs, an aeolid nudibranch, a marine gastropod mollusc in the family Aeolidiidae. It has been regarded as the same species as the NE Atlantic Aeolidia papillosa but is now known to be a distinct species.[1][2] Common names include shaggy mouse nudibranch,[3] and shag-rug nudibranch.[4]

Aeolidia loui
Aeolidia loui from Pillar Point, California
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Mollusca
Class: Gastropoda
Subclass: Heterobranchia
Order: Nudibranchia
Suborder: Cladobranchia
Family: Aeolidiidae
Genus: Aeolidia
Species:
A. loui
Binomial name
Aeolidia loui
Kienberger, Carmona, Pola, Padula, Gosliner, and Cervera, 2016[1]

Distribution

This nudibranch species was described from the intertidal region at Duxbury Reef, Marin County, California. It is known from Cape Arago, Oregon, to San Diego, California, USA on the Pacific Coast of North America.[1]

Description

Aeolidia loui can be easily identified by its large number of flattened cerata on its body except for a triangular area that extends from the rhinophores to the mid dorsum. The cerata vary in color from grey to white and sometimes pink, orange, or green hues, depending on the species of anemone it has been feeding on. The rhinophores are warty in living animals.[1]

Aeolidia loui (Shag-Rug Nudibranch)

Ecology

Feeding habits

Aeolidia loui in a tide pool in Central California, starting to eat a sea anemone (in the lower center of the image). The nudibranch is behind the anemone, and they are both surrounded by purple sea urchins Strongylocentrotus purpuratus.

Aeolidia loui feeds almost entirely on various species of anemones. However, due to limited mobility of nudibranchs and often highly concentrated distribution of prey, individual nudibranchs may concentrate on an individual species of prey during their lifetime.[5] These nudibranchs feed mostly feed on the tentacles of the sea anemone.

Protozoan symbiosis

Aeolidia loui has been shown to harbor the symbiotic organisms of sea anemones, which may increase nutrient production.[6] Zooxanthellae and zoochlorellae are endosymbiotic organisms found in many sea animals that fix carbon through the process of photosynthesis while contributing greatly to their host's growth. Research has shown that these symbionts continue to perform high levels of photosynthesis and remain in Aeolidia loui’s cerata for as much as eleven days, translocating a significant amount of fixed carbon to the nudibranch's bodily tissues.[6]

Chemical manipulation of prey

A unique phenomenon displayed by Aeolidia loui has been studied, revealing an ability to prevent the species of anemone being preyed upon from discharging its nematocysts. A. loui appears to have the ability to adapt to the species of anemone currently being consumed. Though the mechanism is not yet fully understood, the chemical composition of the nudibranch's mucus changes, and does not trigger a discharge of nematocysts in the sea anemone. This effect can even be true for two different species of anemone if the nudibranch has been feeding on both species within a short time period. However, eventually this ability wears off if the nudibranch changes its dietary source for too long.[5]

References

  1. Kienberger, K., Carmona, L., Pola, M., Padula, V., Gosliner, T. M. and Cervera, J. L. (2016). Aeolidia papillosa (Linnaeus, 1761) (Mollusca: Heterobranchia: Nudibranchia), single species or a cryptic species complex? A morphological and molecular study. Zoological Journal of the Linnean Society, 177: 481–506. doi: 10.1111/zoj.12379
  2. Bouchet, P. (2016). Aeolidia loui Kienberger, Carmona, Pola, Padula, Gosliner & Cervera, 2016. In: MolluscaBase (2016). Accessed through: World Register of Marine Species on 2016-06-29
  3. Aeolidia papillosa (Linnaeus, 1761). Invertebrates of the Salish Sea. Rosario Beach Marine Laboratory, Walla Walla University.
  4. McDonald, G. Aeolidia papillosa (Linnaeus, 1761). Intertidal Invertebrates of the Monterey Bay Area, California. UC Santa Cruz.
  5. Greenwood, Paul G.. "Adaptable Defense: A Nudibranch Mucus Inhibits Nematocyst Discharge and Changes With Prey Type Biological Bulletin 206. 2 (2004), 113-120, https://www.jstor.org/stable/1543542. (accessed April 21, 2010)
  6. McFarland, F. K.. "Photosynthesis and Retention of Zooxanthellae and Zoochlorellae within the Aeolid Nudibranch Aeolidia papillosa. Biological Bulletin 184. 2 (1993), 223-229, https://www.jstor.org/stable/1542230. (accessed May 10, 2010)
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