Riccardoella limacum

Riccardoella limacum or the white snail mite is a member of the Acari (mite)[1] family which is parasitic primarily on snails. Slug mites are very small (less than 0.5 mm in length), white, and can be seen to move very rapidly over the surface of their host, particularly under the shell rim and near the pulmonary aperture. While once thought to be benign mucophages, more recent studies have shown that they actually subsist on the host's blood,[2][3] and may bore into the host's body to feed.

Riccardoella limacum
Scientific classification
Kingdom:
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Genus:
Riccardoella
Species:
R. limacum
Binomial name
Riccardoella limacum
(Schrank, 1776)

Studies have shown that this species name has been frequently misapplied to the more widespread Riccardoella oudemansi, the white slug mite. Despite its name, R. limacum is typically a restricted parasite of snails, while R. oudemansi is the common species on slugs, although it occasionally feeds on snails too.[4]

Hosts

Mite infection among gastropod populations varies greatly. Dense gastropod population favors infection; isolated populations may remain uninfected. Older and larger gastropods are more likely to show infection. Mites have been observed to move from host to host when hosts mate, and when gastropods congregate in moist soil and under rocks during the day. It has been shown that mites move preferentially towards fresh mucus when they travel along mucus, enabling them to follow mucus trails to new hosts. Once infected, individual gastropods take longer to mature and show reduced mating, activity, and feeding. Infected slugs and snails lay fewer eggs than uninfected individuals. Infected gastropods also show decreased winter survival rates.

At least 31 species of mollusks are exploited. Common hosts include the following:[2]

Note that, as recent studies show that R. limacum is usually limited to snails, this host list deserves revision.[4]

Taxonomy

The slug mite was first identified in 1710 by entomologist René Antoine Ferchault de Réaumur. Three species were subsequently named, though they were synonymized as Riccardoella limacum in 1946.[2]

Life cycle

Slug mites are a one-host mite. It is possible for a mite to be born, live, and die on a single host.

Mites have two sexes. Their five-stage life cycle is as follows: Females lay eggs in the host lung, and then the eggs hatch in 8–12 days as six-legged larva in the lungs of hosts and undergo three nymph stages. The whole life cycle can take place in 20 days under ideal conditions. Eggs do not hatch while the host is hibernating.

Economic impact and treatment

Slug mites are a concern for commercial and hobbyist breeders of snails; as few as six mites can sicken an individual and make it susceptible to infection by threadworms and bacteria such as Pseudomonas aeruginosa. Countermeasures include regular washing and introduction of Hypoaspis miles, a predatory species of mite which feeds upon slug mites.

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References

  1. Schüpbach HU, Baur B (December 2008). "Experimental evidence for a new transmission route in a parasitic mite and its mucus-dependent orientation towards the host snail". Parasitology. 135 (14): 1679–84. doi:10.1017/S0031182008005039. PMID 19000332.
  2. Barker, G. M.; G. W. Ramsay (1978). "The slug mite Riccardoella limacum (Acari: Ereynetidae) in New Zealand" (PDF). New Zealand Entomologist. 6 (4): 441–443. doi:10.1080/00779962.1978.9722316. Archived from the original (PDF) on July 5, 2008.
  3. Baker, R. A. (October–December 1978). "The food of Riccardoella limacum (Schrank) - Acari-Trombidiformes and its relationship with pulmonate molluscs". Journal of Natural History. 4 (4): 521–530. doi:10.1080/00222937000770481.
  • Baur B. and Schupbach H.U. (2008). "Parasitic mites influence fitness components of their host, the land snail arianta arbustrorum". Invertebrate biology, 127 (3), 350-356
  • Baur A. and Baur B. (2005). "Interpopulation variation in the prevalence and intensity of parasitic mite infection in the land snail Arianta arbustrum". Invertebrate biology 124 (3), 194-201
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