Common periwinkle

Common periwinkle
Periwinkle emerging from its shell, Sweden
L. littorea on the edge of a small sandy beach in Woods Hole, Massachusetts
Scientific classification
Kingdom: Animalia
Phylum: Mollusca
Class: Gastropoda
(unranked): clade Caenogastropoda
clade Hypsogastropoda
clade Littorinimorpha
Superfamily: Littorinoidea
Family: Littorinidae
Genus: Littorina
Species: Littorina littorea
Binomial name
Littorina littorea
(Linnaeus, 1758)[1]
Synonyms[2]
  • Littorina armoricana Locard, 1886
  • Littorina bartonensis Brown, 1843
  • Littorina communis Brown, 1843
  • Littorina litorea (Turton, 1819)
  • Littorina litorea var. brevicula Jeffreys, 1865
  • Littorina litorea var. paupercula Jeffreys, 1865
  • Littorina litorea var. sinistrorsa Jeffreys, 1865
  • Littorina litorea var. turrita Jeffreys, 1865
  • Littorina littorea f. intermedia Brøgger, 1901
  • Littorina littorea var. angulata Harmer, 1920
  • Littorina littorea var. antiqua Wood, 1848
  • Littorina littorea var. balteata Dautzenberg & Durouchoux, 1912
  • Littorina littorea var. complanata Harmer, 1920
  • Littorina littorea var. conica Harmer, 1920
  • Littorina littorea var. deformis Wood, 1848
  • Littorina littorea var. delphinula Wood, 1848
  • Littorina littorea var. distorta Harmer, 1920
  • Littorina littorea var. elegans Wood, 1848
  • Littorina littorea var. fuscofasciatus Middendorff, 1849
  • Littorina littorea var. major Dautzenberg & Durouchoux, 1913
  • Littorina littorea var. miniata Dautzenberg & Durouchoux, 1900
  • Littorina littorea var. pallida Dautzenberg & Durouchoux, 1900
  • Littorina littorea var. pallidefasciatus Middendorff, 1849
  • Littorina littorea var. parva Harmer, 1920
  • Littorina littorea var. picta Wood, 1848
  • Littorina littorea var. pyramidata Wood, 1848
  • Littorina littorea var. sanguinea Dautzenberg & Durouchoux, 1906
  • Littorina littorea var. truncata Harmer, 1920
  • Littorina littorea var. unicarinata Raeymaekers, 1889
  • Littorina parva Teilman-Friis, 1898
  • Littorina rudis var. aurantia Dautzenberg & P. Fischer, 1925
  • Littorina rudis var. reevei Harmer, 1921
  • Littorina sphaeroidalis Locard, 1886
  • Littorina vulgaris J. Sowerby, 1832
  • Turbo bicarinatus Woodward, 1833
  • Turbo carinatus Woodward, 1833
  • Turbo elongatus Woodward, 1833
  • Turbo litoreus Turton, 1819
  • Turbo littoreus Linnaeus, 1758 (basionym)
  • Turbo sulcatus Woodward, 1833
  • Turbo ustulatus Lamarck, 1822
  • Turbo ventricosus Woodward, 1833

The common periwinkle or winkle (Littorina littorea) is a species of small edible whelk or sea snail, a marine gastropod mollusc that has gills and an operculum, and is classified within the family Littorinidae, the periwinkles.[2]

This is a robust intertidal species with a dark and sometimes banded shell. It is native to the rocky shores of the northeastern, and introduced to the northwestern, Atlantic Ocean.

There is another snail known as small periwinkle or Melarhaphe neritoides that looks similar, but is smaller in size.

Description

Shell of the common periwinkle

The shell is broadly ovate, thick, and sharply pointed except when eroded.[3] The shell contains six to seven whorls with some fine threads and wrinkles. The color is variable from grayish to gray-brown, often with dark spiral bands.[3] The base of the columella is white.[3] The shell lacks an umbilicus. The white outer lip is sometimes checkered with brown patches. The inside of the shell has a chocolate-brown color.

The width of the shell ranges from 10 to 12 mm at maturity,[4] with an average length of 16–38 mm.[3]

Shell height can reach up to 30 mm,[4] 43 mm[5] or 52 mm.[3]

As a result of its robust nature, Littorina littorea can be highly variable in phenotype with several different morphs present. Its phenotypic variations may be indicative of a speciation event, as opposed to phenotypic plasticity. This is of particular importance to evolutionary biology, as it presents the possible opportunity to view a transitional phase in the evolutionary life of an organism.[6]

Measuring

Measuring the shell from the end of the aperture to the apex reveals the length of the snail. Turning the shell over with the aperture flat on a surface and measuring vertically reveals the height of the snail. These measurements can be done using a caliper.[7]

Distribution

Common periwinkles are native to the northeastern coasts of the Atlantic Ocean, including northern Spain, France, England, Wales, Scotland, Ireland, Scandinavia, and Russia.[8]

There have been more than 14 000 observations made available as a dataset at the Global Biodiversity Information Facility - Littorina Littorea, which can be explored. More distribution information can also be found at Ocean Biographic Information System - Littorina Littorea. The NBN Gateway - Littorina Littorea has a good distribution map over the UK and Ireland. The datasets may be overlapping.

Introductions to North America

Common periwinkles have been introduced to the Atlantic coast of North America, possibly by rock ballast in the mid-19th century.[9] This species is also found on the west coast of the United States, from Washington to California. The first recorded sighting in the East was in 1840 in the Gulf of St. Lawrence.[9] It is now abundant on rocky shores from New Jersey northward to Newfoundland.[8][10] In Canada, its range includes New Brunswick, Nova Scotia, Quebec, Newfoundland and Labrador.[3]

L. littorea is now the most common marine snail along the North Atlantic coast. It has changed North Atlantic intertidal ecosystems via grazing activities, altering the distribution and abundance of algae on rocky shores and converting soft-sediment habitats to hard substrates, as well as competitively displacing native species.[8][10]

Ecology

Habitat

The common periwinkle is mainly found on rocky shores in the higher and middle intertidal zone.[8] It sometimes lives in small tide pools. It may also be found in muddy habitats such as estuaries,[8] and can reach depths of 180 feet.[8] When exposed to either extreme cold or heat while climbing, a periwinkle will withdraw into its shell and start rolling, hoping to hit the water.[11]

Zoning

The movement both horizontally and vertically according to light and dark as well as temperatures have been observed, but over a short timespan, the movement seems to be random.

Experiments seem to indicated that the snail responds to light and current, and moves accordingly.[12]

Feeding

L. littorea is an omnivorous, grazing intertidal gastropod.[10] It is primarily an algae grazer, but it will feed on small invertebrates such as barnacle larvae. It uses its radula to scrape algae from rocks and, in the salt marsh community, pick up algae from cord grass or from the biofilm that covers the surface of mud in estuaries or bays. Macroalgaes which can be happily consumed include Ulva lactuca and Ulva intestinalis,[13] but if provided, also blue mussel seems to be consumed.

The radula is taenioglossate, consisting of seven teeths per row: one middle tooth, flanked on each side by one lateral and two marginal teeth. The radula is used as a 'rake', to scrape algae and detritus.


Phlorotannins in the brown algae Fucus vesiculosus and Ascophyllum nodosum act as chemical defenses against L. littorea.[14]

Life cycle

L. littorea is oviparous, reproducing annually with internal fertilization of egg capsules that are then shed directly into the sea, leading to a planktotrophic larval development time of four to seven weeks.[10] Females lay 10,000 to 100,000 eggs contained in a corneous capsule from which pelagic larvae escape and eventually settle to the bottom.[8] This species can breed year round depending on the local climate.[8] Benson suggests that it reaches maturity at 10 mm, and normally lives five to ten years.[8] while Moore suggests that maturity is reached in 18 months.[15] Some specimens have been seen reaching an age of 20 years.

Female specimens have been observed to be ripe from February until end of May, when most are spawning. Male specimens are mainly ripe from January until end of May, and lost weight after copulation. The settlement of the young seems to happen primarily in the period end of May to end of June, but other sources indicate earlier settlement.[15]

Growth rate

A study in Plymouth Sound suggests an initial growth reaching up to 14 mm in height December the first year, and 17.4 mm by the end of the second year. H.B. Moore notes the dangers of drawing conclusions on looking at a population from a limited location over a short time period. Females seem to grow more rapid than males, and in specimens above 25 mm in height, females seem to dominate.[15] Another study undertaken in Blackwater Estuary, Essex by F.S. Wright shows growth reaching up to 8 mm the first winter.[16]

Parasites

The common periwinkle can act as a host for various parasites, including Renicola roscovita, Cryptocotyle lingua, Microphallus pygmaeus and Himasthla sp.. More studies are needed before any conclusions regarding stunting, no effect or enhanced growth rate due to parasites can be reached. It seems that growth rate is primarily affected on available food and time available for feeding, and not parasites.[17]

Polydora ciliata has also been found to excavate burrows in the shell of the common periwinkle when the snail is mature (above 10 mm long). The reason why this only happens to mature snails are not yet known, but one hypothesis is that a mature snail will excrete a signal substance which attracts the Polydora ciliata larvae, while another hypothesis is that a mature snail has a change in the shell surface, which makes it suitable for Polydora ciliata larvae to settle. The infection by this parasite does not seem to alter the growth and proportions of the snail shell.[18]

Mortality

Mortality rate of up to 94% per annum has been observed for the first two months, followed by up to 60% per annum for the rest of the first year. Older individuals above 15 months old seem to only have a mortality of 23% per annum. Cercaria emasculans is known to be fatal to the snail, but this does not account for the observed mortality.[15]

Human use

Remains of an ancient meal. Winkle shells from Cantabrian Lower Magdalenian layer (15 000 before present) in the Altamira cave

This species appears in prehistoric shellfish middens throughout Europe, and is believed to have been an important source of food since at least 7500 B.C.E. in Scotland.[19] It is still collected in huge quantities in Scotland, mostly for export to the Continent, and also consumed locally. The official landings figures for Scotland indicate over 2,000 tonnes of winkles are exported annually. This makes winkles the sixth most important shellfish harvested in Scotland in terms of tonnage, and seventh most important in terms of value. However, since actual harvests are probably twice reported levels, the species may actually be the fourth and sixth most important, respectively.[20]

They are usually picked off the rocks by hand or caught in a drag from a boat. They are mostly eaten in the coastal areas of Scotland, England, Wales and Ireland, where they are commonly referred to as winkles or in some areas buckies, willicks, or wilks.

Caracolillos

In Belgium, they are commonly called kreukels or caracoles. They are commonly sold in paper bags near beaches in Ireland and Scotland, boiled in their local seawater, with a pin attached to the bag to enable the extraction of the soft parts from the shell.

Periwinkles are considered a delicacy in African and Asian cuisines. The meat is high in protein, omega-3 fatty acids and low in fat; according to the USDA National Nutrient Database for Standard Reference, raw snails in general are about 80% water, 15% protein, and 1.4% fat.

Periwinkles are also used as bait for catching small fish. The shell is usually crushed and the soft parts extracted and put on a hook.

Following their history as an ancient food source in Atlantic Europe, they are harvested and consumed in the Azores Islands by the Portuguese people, usually called búzios, the generic name for sea snails.

Similar foods are consumed by other maritime cultures throughout the world, such as the Chinese people. Periwinkles, or a similar species, are sold at the live seafood counter in the Chinese-Canadian grocery chain, T&T Supermarket.

The record for the furthest a human has spat a winkle was 10.4 metres by Alain Jourden (France) in 2006.[21]

Supply chain

As for seafood supply chains in general, the supply chain consists of a fisher, processor, distribution and finally the retailer. The true nature of the supply chain is usually more complex and opaque, with the potential for periwinkle harvesting areas and date of catch to be changed.

Fisher

Commonly harvested in buckets by fishers walking in the intertidal zone on low tide, other methods have been tried.

In Maine, using a dredge tool towed from a vessel is common practice.

In Norway, using snorkeling has also been observed.

A report on the state of the periwinkle industry in Ireland suggests a maximum catch size in order to preserve the population.

External video
Dredging for periwinkles, YouTube video
Snorkeling for periwinkles, YouTube video

Processor

The processor buys in bulk from the fisher, involving a possibly long transport route by land in a refrigerator truck or airplane, taking care to avoid temperatures below 0° Celsius.

Having fresh seawater readily available, the periwinkles are first graded if possible, using a machine custom built for the purpose. The method used for grading differs, but two proven methods include a Trommel screen with horizontal bars instead of a mesh, and a Circle-throw vibrating machine also using bars. The price to purchase a complete sorting machine can be 10,000 Euros or more.

Periwinkles are graded by number of snails per kilogram. The following table displays some common grades in France. The actual value is depending upon supply and demand, with seasonal variations. The actual ranges may also differ from each establishment.

Grade name Number per kilogram
Small NA
Medium NA
Large 200+
Jumbo 140-200
Super Jumbo 100-140

After grading, the periwinkles are "climbed" close to the end consumer, a term used to describe the act of checking if they are still alive. This can take anywhere from a few hours to several days, depending on how virile the periwinkles are, and the temperature of the water they climb in. Any periwinkles left immobile at the bottom are considered dead, and is waste. It is not uncommon to have up to 8% waste in a shipment.

Hereafter, the winkles are commonly packed in smaller quantities, before being distributed to customers. Mesh bags from 3 to 10 kg are common.

Distributor

In order to sell large quantities, distributors are commonly used in order to move the periwinkles to the retailer. These have vast networks of transport available both internationally, regionally and locally inside a city. In order to move periwinkles all the way, one would usually depend upon several distributors, each focusing on their own part of the transport network.

Retail

The Common Periwinkle is sold by fishmongers at seafood markets in large cities around the world, and is also commonly found in seafood restaurants as an appetizer or as a part of a seafood platter. In some countries, the pubs usually also serve periwinkles as a snack well served with a cold beer.

Most of the volume is consumed by France, Belgium, Spain and the Netherlands.

Methods to increase commercial value

Ongrowing has been investigated as a potential way of increasing commercial value, but no documented pilot facilities have been established. By harvesting the periwinkle during the summer, and storing them with feed until December, not only should the grade have been increased, but the market value should be higher since supply is lower in the cold winter months.[22]

Aquaculture

Raising the common periwinkle has not been a focus due to its abundance in nature and relatively low price, however there are potential benefits from aquaculturing this species, including a more controlled environment, easier harvesting, less damages from predators, as well as saving the natural population from commercial harvesting.

References

This article incorporates a public domain text (a public domain work of the United States Government) from references [8][3] and CC-BY-2.5 text from the reference [10]

  1. Linnaeus C. (1758). Systema naturae per regna tria naturæ, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Tomus I. Editio decima, reformata. pp. [1-4], 1-824. Holmiae. (Salvius).
  2. 1 2 Reid, David G.; Gofas, S. (2011). Littorina littorea (Linnaeus, 1758). Accessed through: World Register of Marine Species at http://www.marinespecies.org/aphia.php?p=taxdetails&id=140262 on 2011-05-16
  3. 1 2 3 4 5 6 7 Benson A. J. (2011). Littorina littorea. USGS Nonindigenous Aquatic Species Database, Gainesville, FL. http://nas.er.usgs.gov/queries/FactSheet.aspx?speciesID=1009 RevisionDate: 4/21/2009.
  4. 1 2 Common periwinkle at marlin.ac.uk retrieved 20.04.2016
  5. Welch J. J. (2010). "The "Island Rule" and Deep-Sea Gastropods: Re-Examining the Evidence". PLoS ONE 5(1): e8776. doi:10.1371/journal.pone.0008776.
  6. Grahame J. (1975). "Spawning in Littorina littorea (L.) (Gastropoda: Prosobranchiata)". Journal of experimental marine Biology and Ecology 18: 185-196.
  7. Eschweiler, N., Molis, M. & Buschbaum, C. Helgol Mar Res (2009) "Habitat-specific size structure variations in periwinkle populations (Littorina littorea) caused by biotic factors" doi:10.1007/s10152-008-0131-x
  8. 1 2 3 4 5 6 7 8 9 10 Benson A. (2008). Littorina littorea. USGS Nonindigenous Aquatic Species Database, Gainesville, FL. <http://nas.er.usgs.gov/queries/FactSheet.asp?speciesID=1009> Revision Date: 8/20/2007
  9. 1 2 Chapman J. W., Carlton J. T., Bellinger M. R. & Blakeslee A. M. H. (2007). "Premature refutation of a human-mediated marine species introduction: the case history of the marine snail Littorina littorea in the northwestern Atlantic". Biological Invasions 9:737-750.
  10. 1 2 3 4 5 Chang A. L., Blakeslee A. M. H., Miller A. W. & Ruiz G. M. (2011). "Establishment Failure in Biological Invasions: A Case History of Littorina littorea in California, USA". PLoS ONE 6(1): e16035. doi:10.1371/journal.pone.0016035.
  11. http://eol.org/pages/619396/details
  12. The Biology of Rocky Shores, page 94 By Colin Little, J. A. Kitching
  13. The Biology of Rocky Shores, page 83 By Colin Little, J. A. Kitching
  14. Polyphenols in brown algae Fucus vesiculosus and Ascophyllum nodosum: Chemical defenses against the marine herbivorous snail, Littorina littorea. J. A. Geiselman and O. J. McConnell, Journal Of Chemical Ecology,1981, Volume 7, Number 6, pages 1115-1133, doi:10.1007/BF00987632
  15. 1 2 3 4 The biology of Littorina littorea. Part 1. Growth of the shell and tissues, spawning, length of life and mortality. Hillary B. Moore,Journal of the Marine Biological Association of the UK, Volume 21, Issue 2, 1937, pages 721-742
  16. Report on the Maldon (Essex) Periwinkle Fishery. F.S. Wright, Great Britain. Ministry of Agriculture and Fisheries. Fishery Investigations. Ser. II, Vol. 14, no. 5 & 6., 1936
  17. Influence of trematode infections on in situ growth rates of Littorina littorea. Kim N. Mouritsen, A. Gorbushin O and K. Thomas Jensen, Journal of the Marine Biological Association of the UK, Volume 79, Issue 3, 1999, pages 425-430
  18. On the shell growth of Littorina Littorea and the occurrence of Polydora Ciliata. Lars Orrhage, Zoologiska bidrag från Uppsala, Volume 38, 1969, pages 137-152
  19. Ashmore, quoted in McKay and Fowler 1997 b
  20. McKay and Fowler 1997 b
  21. Glenday, Craig. Guinness World Records 2014. p. 221. ISBN 978-1-908843-15-9.
  22. http://www.seafish.org/media/Publications/SR483.pdf

Further reading

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