Oyster
Oyster is the common name for a number of different families of salt-water bivalve molluscs that live in marine or brackish habitats. In some species, the valves are highly calcified, and many are somewhat irregular in shape. Many, but not all oysters are in the superfamily Ostreoidea.
Oyster | |
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Pacific oyster from the Marennes-Oléron basin in France | |
Scientific classification | |
Kingdom: | Animalia |
Phylum: | Mollusca |
Class: | Bivalvia |
Subclass: | Pteriomorphia |
Groups included | |
| |
Cladistically included but traditionally excluded taxa | |
All other members of:
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Some types of oysters are commonly consumed (cooked or raw), and in some locales are regarded as a delicacy. Some types of pearl oysters are harvested for the pearl produced within the mantle. Windowpane oysters are harvested for their translucent shells, which are used to make various kinds of decorative objects.
Etymology
The word oyster comes from Old French oistre, and first appeared in English during the 14th century.[1] The French derived from the Latin ostrea, the feminine form of ostreum,[2] which is the latinisation of the Ancient Greek ὄστρεον (ostreon) 'oyster'.[3] Compare ὀστέον (osteon) 'bone'.[4]
Types
True oysters
True oysters are members of the family Ostreidae. This family includes the edible oysters, which mainly belong to the genera Ostrea, Crassostrea, Ostreola, Magallana, and Saccostrea. Examples include the European flat oyster, eastern oyster, Olympia oyster, Pacific oyster, and the Sydney rock oyster. Ostreidae evolved in the Early Triassic epoch: The genus Liostrea grew on the shells of living ammonoids.[5]
Pearl oysters
Almost all shell-bearing mollusks can secrete pearls, yet most are not very valuable. Pearls can form in both saltwater and freshwater environments.
Pearl oysters are not closely related to true oysters, being members of a distinct family, the feathered oysters (Pteriidae). Both cultured pearls and natural pearls can be extracted from pearl oysters, though other molluscs, such as the freshwater mussels, also yield pearls of commercial value.
The largest pearl-bearing oyster is the marine Pinctada maxima, which is roughly the size of a dinner plate. Not all individual oysters produce pearls naturally.
In nature, pearl oysters produce pearls by covering a minute invasive object with nacre. Over the years, the irritating object is covered with enough layers of nacre to become a pearl. The many different types, colours and shapes of pearls depend on the natural pigment of the nacre, and the shape of the original irritant.
Pearl farmers can culture a pearl by placing a nucleus, usually a piece of polished mussel shell, inside the oyster. In three to seven years, the oyster can produce a perfect pearl. Since the beginning of the 20th century, when several researchers discovered how to produce artificial pearls, the cultured pearl market has far outgrown the natural pearl market.[6]
Other types
A number of bivalve molluscs (other than true oysters and pearl oysters) also have common names that include the word "oyster", usually because they either taste like or look somewhat like true oysters, or because they yield noticeable pearls. Examples include:
- Thorny oysters in the genus Spondylus
- Pilgrim oyster, another term for a scallop, in reference to the scallop shell of St. James
- Saddle oysters, members of the Anomiidae family also known as jingle shells
- Dimydarian oysters, members of the family Dimyidae
- Windowpane oysters
- Pacific oyster
- Pacific oyster, opened
In the Philippines, a local thorny oyster species known as Tikod amo is a favorite seafood source in the southern part of the country.[7] Because of its good flavor, it commands high prices.
Anatomy
Oysters breathe primarily via gills. In addition to their gills, oysters can exchange gases across their mantles, which are lined with many small, thin-walled blood vessels. A small, three-chambered heart, lying under the adductor muscle, pumps colorless blood to all parts of the body. At the same time, two kidneys, located on the underside of the muscle, remove waste products from the blood. Their nervous system includes two pairs of nerve cords and three pairs of ganglia. There is no evidence that oysters have a brain.
While some oysters have two sexes (European oyster and Olympia oyster), their reproductive organs contain both eggs and sperm. Because of this, it is technically possible for an oyster to fertilize its own eggs. The gonads surround the digestive organs, and are made up of sex cells, branching tubules, and connective tissue.
Once her millions of eggs are fertilized, the female discharges them into the water. The larvae develop in about six hours and exist suspended in the water column as veliger larvae for two to three weeks before settling on a bed and reaching sexual maturity within a year.
Feeding
Oysters are filter feeders, drawing water in over their gills through the beating of cilia. Suspended plankton and non-food particles are trapped in the mucus of a gill, and from there are transported to the mouth, where they are eaten, digested, and expelled as feces or pseudofeces that fall to the bottom and remain out of the water column. Oysters feed most actively at temperatures ranging from the high 60s to the high 70s (20–26 °C).[8] Under ideal laboratory conditions, an oyster can filter up to 190 l (50 US gal) of water per day. Under average conditions, mature oysters filter 11–45 l (3–12 U.S. gal). Chesapeake Bay's once-flourishing oyster population historically filtered excess nutrients from the estuary's entire water volume every three to four days. As of 2008 it was estimated that a complete cycle would take nearly a year.[9]
Habitat and behaviour
A group of oysters is commonly called a bed or oyster reef.
As a keystone species, oysters provide habitat for many marine species. Crassostrea and Saccostrea live mainly in the intertidal zone, while Ostrea is subtidal. The hard surfaces of oyster shells and the nooks between the shells provide places where a host of small animals can live. Hundreds of animals, such as sea anemones, barnacles, and hooked mussels, inhabit oyster reefs. Many of these animals are prey to larger animals, including fish, such as striped bass, black drum and croakers.
An oyster reef can increase the surface area of a flat bottom 50-fold. An oyster's mature shape often depends on the type of bottom to which it is originally attached, but it always orients itself with its outer, flared shell tilted upward. One valve is cupped and the other is flat.
Oysters usually reach maturity in one year. They are protandric; during their first year, they spawn as males by releasing sperm into the water. As they grow over the next two or three years and develop greater energy reserves, they spawn as females by releasing eggs. Bay oysters usually spawn from the end of June until mid-August. An increase in water temperature prompts a few oysters to spawn. This triggers spawning in the rest, clouding the water with millions of eggs and sperm. A single female oyster can produce up to 100 million eggs annually. The eggs become fertilized in the water and develop into larvae, which eventually find suitable sites, such as another oyster's shell, on which to settle. Attached oyster larvae are called spat. Spat are oysters less than 25 mm (1 in) long. Many species of bivalves, oysters included, seem to be stimulated to settle near adult conspecifics.
Oysters filter large amounts of water to feed and breathe (exchange O2 and CO2 with water) but they are not permanently open. They regularly shut their valves to enter a resting state, even when they are permanently submersed. Their behaviour follows very strict circatidal and circadian rhythms according to the relative moon and sun positions. During neap tides, they exhibit much longer closing periods than during the spring tide.[10]
Some tropical oysters, such as the mangrove oyster in the family Ostreidae, grow best on mangrove roots. Low tide can expose them, making them easy to collect.
The largest oyster-producing body of water in the United States is the Chesapeake Bay, although these beds have decreased in number due to overfishing and pollution. Willapa Bay in Washington produces more oysters than any other estuary in the US.[11] Other large oyster farming areas in the US include the bays and estuaries along the coast of the Gulf of Mexico from Apalachicola, Florida, in the east to Galveston, Texas, in the west. Large beds of edible oysters are also found in Japan and Australia. In 2005, China accounted for 80% of the global oyster harvest.[12] In Europe, France remained the industry leader.
Common oyster predators include crabs, seabirds, starfish, and humans. Some oysters contain crabs, known as oyster crabs.[13]
Nutrient cycling
Bivalves, including oysters, are effective filter feeders and can have large effects on the water columns in which they occur.[14] As filter feeders, oysters remove plankton and organic particles from the water column.[15] Multiple studies have shown individual oysters are capable of filtering up to 190 litres (42 imp gal; 50 US gal) of water per day, and thus oyster reefs can significantly improve water quality and clarity.[16][17][18][19] Oysters consume nitrogen-containing compounds (nitrates and ammonia), phosphates, plankton, detritus, bacteria, and dissolved organic matter, removing them from the water.[20] What is not used for animal growth is then expelled as solid waste pellets, which eventually decompose into the atmosphere as nitrogen.[21] In Maryland, the Chesapeake Bay Program had implemented a plan to use oysters to reduce the amount of nitrogen compounds entering the Chesapeake Bay by 8,600 t (9,500 short tons) per year by 2010.[22] Several studies have shown that oysters and mussels have the capacity to dramatically alter nitrogen levels in estuaries.[23][24][25] In the U.S., Delaware is the only East Coast state without aquaculture, but making aquaculture a state-controlled industry of leasing water by the acre for commercial harvesting of shellfish is being considered.[26] Supporters of Delaware's legislation to allow oyster aquaculture cite revenue, job creation, and nutrient cycling benefits. It is estimated that one acre (0.40 ha) can produce nearly 750,000 oysters, which could filter between 57,000 to 150,000 m3 (2.0–5.3 million cu ft) of water daily.[26] Also see nutrient pollution for an extended explanation of nutrient remediation.
Ecosystem services
As an ecosystem engineer, oysters provide supporting ecosystem services, along with provisioning, regulating and cultural services. Oysters influence nutrient cycling, water filtration, habitat structure, biodiversity, and food web dynamics.[27] Assimilation of nitrogen and phosphorus into shellfish tissues provides an opportunity to remove these nutrients from the water column.[28][29][30] In California's Tomales Bay, native oyster presence is associated with higher species diversity of benthic invertebrates.[31][32] The ecological and economic importance of oyster reefs has become more acknowledged, restoration efforts have increased.[15]
Human history
Middens testify to the prehistoric importance of oysters as food, with some middens in New South Wales, Australia, dated at ten thousand years.[34] They have been cultivated in Japan from at least 2000 BC.[34] In the United Kingdom, the town of Whitstable is noted for oyster farming from beds on the Kentish Flats that have been used since Roman times. The borough of Colchester holds an annual Oyster Feast each October, at which "Colchester Natives" (the native oyster, Ostrea edulis) are consumed. The United Kingdom hosts several other annual oyster festivals; for example, Woburn Oyster Festival is held in September. In fact, in Victorian England, it was quite common for people to go to the pub and enjoy their favorite beer with some oysters. They quickly realized that the "rich, sweet, malty stouts" were great with the "briny, creamy oyster." Then Brewers found that oyster shells naturally clarify a beer and they started putting crushed oyster shells into their brews. The first known brewery to start this was in 1938 at the Hammerton Brewery in London. That is where the oyster stout was first started.[35]
The French seaside resort of Cancale in Brittany is noted for its oysters, which also date from Roman times. Sergius Orata of the Roman Republic is considered the first major merchant and cultivator of oysters. Using his considerable knowledge of hydraulics, he built a sophisticated cultivation system, including channels and locks, to control the tides. He was so famous for this, the Romans used to say he could breed oysters on the roof of his house.[36]
In the early 19th century, oysters were cheap and mainly eaten by the working class. Throughout the 19th century, oyster beds in New York Harbor became the largest source of oysters worldwide. On any day in the late 19th century, six million oysters could be found on barges tied up along the city's waterfront. They were naturally quite popular in New York City, and helped initiate the city's restaurant trade.[37] New York's oystermen became skilled cultivators of their beds, which provided employment for hundreds of workers and nutritious food for thousands. Eventually, rising demand exhausted many of the beds. To increase production, they introduced foreign species, which brought disease; effluent and increasing sedimentation from erosion destroyed most of the beds by the early 20th century. Oysters' popularity has put ever-increasing demands on wild oyster stocks.[38] This scarcity increased prices, converting them from their original role as working-class food to their current status as an expensive delicacy.
In the United Kingdom, the native variety (Ostrea edulis) requires five years to mature and is protected by an Act of Parliament during the May-to-August spawning season. The current market is dominated by the larger Pacific oyster and rock oyster varieties which are farmed year-round.
Fishing from the wild
Oysters are harvested by simply gathering them from their beds. In very shallow waters, they can be gathered by hand or with small rakes. In somewhat deeper water, long-handled rakes or oyster tongs are used to reach the beds. Patent tongs can be lowered on a line to reach beds that are too deep to reach directly. In all cases, the task is the same: the oysterman scrapes oysters into a pile, and then scoops them up with the rake or tongs.
In some areas, a scallop dredge is used. This is a toothed bar attached to a chain bag. The dredge is towed through an oyster bed by a boat, picking up the oysters in its path. While dredges collect oysters more quickly, they heavily damage the beds, and their use is highly restricted. Until 1965, Maryland limited dredging to sailboats, and even since then motor boats can be used only on certain days of the week. These regulations prompted the development of specialized sailboats (the bugeye and later the skipjack) for dredging.
Similar laws were enacted in Connecticut before World War I and lasted until 1969. The laws restricted the harvesting of oysters in state-owned beds to vessels under sail. These laws prompted the construction of the oyster sloop-style vessel to last well into the 20th century. Hope is believed to be the last-built Connecticut oyster sloop, completed in 1948.
Oysters can also be collected by divers.
In any case, when the oysters are collected, they are sorted to eliminate dead animals, bycatch (unwanted catch), and debris. Then they are taken to market, where they are either canned or sold live.
Cultivation
Oysters have been cultured since at least the days of the Roman Empire. The Pacific oyster (Magallana gigas) is presently the most widely grown bivalve around the world.[39] Two methods are commonly used, release and bagging. In both cases, oysters are cultivated onshore to the size of spat, when they can attach themselves to a substrate. They may be allowed to mature further to form "seed oysters". In either case, they are then placed in the water to mature. The release technique involves distributing the spat throughout existing oyster beds, allowing them to mature naturally to be collected like wild oysters. Bagging has the cultivator putting spat in racks or bags and keeping them above the bottom. Harvesting involves simply lifting the bags or rack to the surface and removing the mature oysters. The latter method prevents losses to some predators, but is more expensive.[40]
The Pacific oyster has been grown in the outflow of mariculture ponds. When fish or prawns are grown in ponds, it takes typically 10 kg (22 lb) of feed to produce 1 kg (2+1⁄4 lb) of product (dry-dry basis). The other 9 kg (20 lb) goes into the pond and after mineralization, provides food for phytoplankton, which in turn feeds the oyster.
To prevent spawning, sterile oysters are now cultured by crossbreeding tetraploid and diploid oysters. The resulting triploid oyster cannot propagate, which prevents introduced oysters from spreading into unwanted habitats.[41]
Restoration and recovery
In many areas, non-native oysters have been introduced in attempts to prop up failing harvests of native varieties. For example, the eastern oyster (Crassostrea virginica) was introduced to California waters in 1875, while the Pacific oyster was introduced there in 1929.[42] Proposals for further such introductions remain controversial.
The Pacific oyster prospered in Pendrell Sound, where the surface water is typically warm enough for spawning in the summer. Over the following years, spat spread out sporadically and populated adjacent areas. Eventually, possibly following adaptation to the local conditions, the Pacific oyster spread up and down the coast and now is the basis of the North American west coast oyster industry. Pendrell Sound is now a reserve that supplies spat for cultivation.[43] Near the mouth of the Great Wicomico River in the Chesapeake Bay, five-year-old artificial reefs now harbor more than 180 million native Crassostrea virginica. That is far lower than in the late 1880s, when the bay's population was in the billions, and watermen harvested about 910,000 m3 (25 million imp bsh) annually. The 2009 harvest was less than 7,300 m3 (200,000 imp bsh). Researchers claim the keys to the project were:
- using waste oyster shells to elevate the reef floor 25–45 cm (9.8–17.7 in) to keep the spat free of bottom sediments
- building larger reefs, ranging up to 8.1 ha (20 acres) in size
- disease-resistant broodstock[44]
The "oyster-tecture" movement promotes the use of oyster reefs for water purification and wave attenuation. An oyster-tecture project has been implemented at Withers Estuary, Withers Swash, South Carolina, by Neil Chambers-led volunteers, at a site where pollution was affecting beach tourism.[45] Currently, for the installation cost of $3000, roughly 4.8 million liters of water are being filtered daily. In New Jersey, however, the Department of Environmental Protection refused to allow oysters as a filtering system in Sandy Hook Bay and the Raritan Bay, citing worries that commercial shellfish growers would be at risk and that members of the public might disregard warnings and consume tainted oysters. New Jersey Baykeepers responded by changing their strategy for utilizing oysters to clean up the waterway, by collaborating with Naval Weapons Station Earle. The Navy station is under 24/7 security and therefore eliminates any poaching and associated human health risk.[46] Oyster-tecture projects have been proposed to protect coastal cities, such as New York, from the threat of rising sea levels due to climate change.[47]
Human impact
The accidental or intentional introduction of species by humans has the potential to negatively impact native oyster populations. For example, non-native species in Tomales Bay have resulted in the loss of half of California's Olympia oysters.[48]
In October 2017, it was reported that underwater noise pollution can affect oysters as they close their shells when exposed to low frequencies of sounds in experimental conditions. Oysters rely on hearing waves and currents to regulate their circadian rhythms, and perception of weather events—such as rain—may induce spawning. Cargo ships, pile drivers, and explosions conducted underwater produce low frequencies that may be detected by oysters.[49]
Environmental stressors as a result of global change are also negatively impacting oysters around the world, with many impacts affecting molecular, physiological, and behavioral processes in species including Magallana gigas.[50]
As food
Jonathan Swift is quoted as having said, "He was a bold man that first ate an oyster".[51] Evidence of oyster consumption goes back into prehistory, evidenced by oyster middens found worldwide. Oysters were an important food source in all coastal areas where they could be found, and oyster fisheries were an important industry where they were plentiful. Overfishing and pressure from diseases and pollution have sharply reduced supplies, but they remain a popular treat celebrated in oyster festivals in many cities and towns.
It was once assumed that oysters were only safe to eat in months with the letter 'r' in their English and French names. This myth is based in truth, in that in the Northern Hemisphere, oysters are much more likely to spoil in the warmer months of May, June, July, and August.[52] In recent years, pathogens such as Vibrio parahaemolyticus have caused outbreaks in several harvesting areas of the eastern United States during the summer months, lending further credence to this belief.
Dishes
Oysters can be eaten on the half shell, raw, smoked, boiled, baked, fried, roasted, stewed, canned, pickled, steamed, or broiled, or used in a variety of drinks. Eating can be as simple as opening the shell and eating the contents, including juice. Butter and salt are often added. Poached oysters can be served on toast with a cream roux.[53] In the case of Oysters Rockefeller, preparation can be very elaborate. They are sometimes served on edible seaweed, such as brown algae.
Care should be taken when consuming oysters. They may be eaten raw, with no dressing or with lemon juice, vinegar (most commonly shallot vinegar), or cocktail sauce. Upscale restaurants pair raw oysters with mignonette sauce, which consists primarily of fresh chopped shallot, mixed peppercorn, dry white wine and lemon juice or sherry vinegar. Like fine wine, raw oysters have complex flavors that vary greatly among varieties and regions: salty, briny, buttery, metallic or fruity. The texture is soft and fleshy, but crisp on the palate. North American varieties include Kumamoto and Yaquina Bay from Oregon, Duxbury and Wellfleet from Massachusetts, Malpeque from Prince Edward Island, Canada, Blue Point from Long Island, New York, Pemaquid from Maine, Rappahannock River from Virginia, Chesapeake from Maryland and Cape May from New Jersey. Variations in water salinity, alkalinity, and mineral and nutritional content influence their flavor.
Nutrition
Oysters are an excellent source of zinc, iron, calcium, and selenium, as well as vitamin A and vitamin B12. Oysters are low in food energy; one dozen raw oysters provides only 460 kilojoules (110 kilocalories).[56] They are rich in protein (approximately 9 g in 100 g of Pacific oysters).[57] Two oysters (28 grams or 1 ounce) provide the Reference Daily Intake of zinc and vitamin B12.[58]
Traditionally, oysters are considered to be an aphrodisiac, partially because they resemble female sex organs.[59] A team of American and Italian researchers analyzed bivalves and found they were rich in amino acids that trigger increased levels of sex hormones.[60] Their high zinc content aids the production of testosterone.[37]
Shucking oysters
Opening oysters, referred to as "oyster-shucking", requires skill. The preferred method is to use a special knife (called an oyster knife, a variant of a shucking knife), with a short and thick blade about 5 cm (2 in) long.
While different methods are used to open an oyster (which sometimes depend on the type), the following is one commonly accepted oyster-shucking method.
- Insert the blade, with moderate force and vibration if necessary, at the hinge between the two valves.
- Twist the blade until there is a slight pop.
- Slide the blade upward to cut the adductor muscle which holds the shell closed.
Inexperienced shuckers can apply too much force, which can result in injury if the blade slips. Heavy gloves, sometimes sold as oyster gloves, are recommended; apart from the knife, the shell itself can be razor-sharp. Professional shuckers require fewer than three seconds to open the shell.[37]
If the oyster has a particularly soft shell, the knife can be inserted instead in the "sidedoor", about halfway along one side where the oyster lips widen with a slight indentation.
Opening or "shucking" oysters has become a competitive sport. Oyster-shucking competitions are staged around the world.[61] The Guinness World Oyster Opening Championship was held annually in September at the Galway International Oyster Festival, in Galway, Ireland until 2010.[62] Since 2011, "Guinness" has been dropped from the title.[63]
Food safety and storage
Unlike most shellfish, oysters can have a fairly long shelf life of up to four weeks. However, their taste becomes less pleasant as they age. Fresh oysters must be alive just before consumption or cooking.[64]
Oysters that do not open are generally assumed to be dead before cooking and therefore unsafe.[65] There is only one criterion: the oyster must be capable of tightly closing its shell. Open oysters should be tapped on the shell; a live oyster will close up and is safe to eat. Oysters which are open and unresponsive are dead and must be discarded. Some dead oysters, or oyster shells which are full of sand, may be closed. These make a distinctive noise when tapped, and are known as "clackers".
Oysters can contain harmful bacteria. Oysters are filter feeders, so will naturally concentrate anything present in the surrounding water. Oysters from the Gulf Coast of the United States, for example, contain high bacterial loads of human pathogens in the warm months, most notably Vibrio vulnificus and Vibrio parahaemolyticus. In these cases, the main danger is for immunocompromised individuals, who are unable to fight off infection and can succumb to sepsis, leading to death. Vibrio vulnificus is the most deadly seafood-borne pathogen.[66]
Depuration
Depuration of oysters is a common industry practice and widely researched in the scientific community but is not commonly known by end consumers. The main objective of seafood depuration is to remove fecal contamination in seafood before being sold to end consumers. Oyster depuration is useful since they are generally eaten raw and in many countries, the requirement to process is government-regulated or mandatory. The United Nations Food and Agriculture Organization (FAO) formally recognizes depuration and has published detailed documents on the process,[67] whereas the Codex Alimentarius, encourages the application of seafood depuration.[68]
Oyster depuration begins after the harvest of oysters from farmed locations. The oysters are transported and placed into tanks pumped with clean water for periods of 48 to 72 hours. The holding temperatures and salinity vary according to species. The seawater that the oysters were originally farmed in does not remain in the oyster, since the water used for depuration must be fully sterilized, plus the depuration facility would not necessarily be located near the farming location.[69] Depuration of oysters can remove moderate levels of contamination of most bacterial indicators and pathogens. Well-known contaminants include Vibrio parahaemolyticus, a temperature-sensitive bacterium found in seawater animals, and Escherichia coli, a bacterium found in coastal waters near highly populated cities having sewage systems discharging waste nearby, or in the presence of agricultural discharges. Depuration expands beyond oysters into many shellfish and other related products, especially in seafood that is known to come from potentially polluted areas; depurated seafood is effectively a product cleansed from inside-out to make it safe for human consumption.
Religious
As shellfish, consumption of oyster is forbidden by Jewish dietary law. Similarly, in Islam, Jaʽafari Shia and Hanafi Sunni dietary jurisprudence prohibit consuming bivalves, including oysters.
Diseases
Oysters are subject to various diseases which can reduce harvests and severely deplete local populations. Disease control focuses on containing infections and breeding resistant strains, and is the subject of much ongoing research.
- "Dermo" is caused by a protozoan parasite (Perkinsus marinus). It is a prevalent pathogen, causes massive mortality, and poses a significant economic threat to the oyster industry. The disease is not a direct threat to humans consuming infected oysters.[70] Dermo first appeared in the Gulf of Mexico in the 1950s, and until 1978 was believed to be caused by a fungus. While it is most serious in warmer waters, it has gradually spread up the east coast of the United States.[71]
- Multinucleated sphere X (MSX) is caused by the protozoan Haplosporidium nelsoni, generally seen as a multinucleated Plasmodium. It is infectious and causes heavy mortality in the eastern oyster; survivors, however, develop resistance and can help propagate resistant populations. MSX is associated with high salinity and water temperatures.[70] MSX was first noted in Delaware Bay in 1957, and is now found all up and down the East Coast of the United States. Evidence suggests it was brought to the US when Crassostrea gigas, Pacific oyster variety, was introduced to Delaware Bay.[71]
- Denman Island disease causes visible yellow/green pustules on the body and adductor muscles of oysters. This disease mainly affects Pacific oysters (Crassostrea gigas). The disease was first described in 1960 near Denman Island off the eastern aspect of Vancouver Island, British Columbia. It was found that the causative agent of these lesions are associated with amitochondriate protistan microcells, which were later identified as Mikrocytos mackini.
Some oysters also harbor bacterial species which can cause human disease; of importance is Vibrio vulnificus, which causes gastroenteritis, which is usually self-limiting, and cellulitis. Cellulitis can be severe and rapidly spreading, requiring antibiotics, medical care, and in some severe cases amputation. It is usually acquired when the contents of the oyster come in contact with a cut skin lesion, as when shucking an oyster.
See also
- Angels on horseback (classic recipe)
- Auckland oyster
- European flat oyster
- Bluff oyster
- Eastern oyster
- List of delicacies
- List of smoked foods
- Ostrea angasi (Australian southern mud or native flat oyster)
- Oyster omelette
- Oyster pirate
- Oyster sauce
- Oysters Kirkpatrick (classic recipe and minor English literary character)
- Red tide
- Rolled oyster
- San Leandro Oyster Beds
- Sydney rock oyster
- Tabby concrete
References
- Oysters in Cynee Archived 10 May 2013 at the Wayback Machine, Recipe for Oysters in Bread Sauce (Oysters in Cynee) from the 1390 English text, The Forme of Cury, from Celtnet Recipes
- ostrea, ostreum, Charlton T. Lewis, Charles Short, A Latin Dictionary, on Perseus
- ὄστρεον, Henry George Liddell, Robert Scott, A Greek-English Lexicon, on Perseus
- "Henry George Liddell, Robert Scott, A Greek-English Lexicon, ὀστέον". www.perseus.tufts.edu. Retrieved 24 September 2022.
- Hautmann, Michael; Ware, David; Bucher, Hugo (2017). "Geologically oldest oysters were epizoans on Early Triassic ammonoids". Journal of Molluscan Studies. 83 (3): 253–260. doi:10.1093/mollus/eyx018.
- Nagai, Kiyohito (2013). "A History of the Cultured Pearl Industry". Zoological Science. BioOne. 30 (10): 783–793. doi:10.2108/zsj.30.783. PMID 24125642. S2CID 1429376. Retrieved 13 October 2020.
- "Native oyster species in Surigao del Sur draws attention for R&D | eVolved". eVolved. 2 December 2011. Retrieved 12 December 2017.
- Wheeler, Timothy B. (20 May 2020). "Pumped-up performance: Oysters' filtering feat overstated". Bay Journal. Retrieved 14 April 2022.
- "Oyster Reefs: Ecological importance" (PDF). US National Oceanic and Atmospheric Administration. Archived from the original (PDF) on 8 September 2014. Retrieved 16 January 2008.
- Tran, D.; Nadau, A.; Durrieu, G.; Ciret, P.; Parisot, J. P.; Massabuau, J. C. (2011). "Field chronobiology of a molluscan bivalve: How the moon and sun cycles interact to drive oyster activity rhythms". Chronobiology International. 28 (4): 307–317. doi:10.3109/07420528.2011.565897. PMID 21539422. S2CID 25356955.
- "Ruesink Lab - About the Bay". depts.washington.edu.
- "China harvests almost 4 m tonnes of oyster in 2005".
- Christensen, Aage Møller; McDermott, John J. (April 1958). "Life-History and Biology of the Oyster Crab, Pinnotheres ostreum Say". Biological Bulletin. 14 (2): 146–179. doi:10.2307/1538845. JSTOR 1538845.
- Padilla, D. K. (2010). "Context-dependent impacts of a non-native ecosystem engineer, the Pacific oyster Crassostrea gigas". Integrative and Comparative Biology. 50 (2): 213–225. doi:10.1093/icb/icq080. PMID 21558200.
- Jud, Zachary; Layman, Craig (2011). "Loxahatchee River oyster reef restoration monitoring report: Using baselines derived from long-term monitoring of benthic community structure on natural oyster reefs to assess the outcome of large-scale oyster reef restoration" (PDF). Martin County, Florida. Retrieved 14 July 2022.
- Jonas, Robert B. (1997). "Bacteria, Dissolved Organics and Oxygen Consumption in Salinity Stratified Chesapeake Bay, an Anoxia Paradigm". American Zoologist. 37 (6): 612–620. doi:10.1093/icb/37.6.612.
- Officer, C.B.; Smayda, T.J.; Mann, R. (1982). "Benthic Filter Feeding – a Natural Eutrophication Control" (PDF). Marine Ecology Progress Series. 9: 203–210. Bibcode:1982MEPS....9..203O. doi:10.3354/meps009203.
- Ulanowicz, Robert E.; Tuttle, Jon H. (1992). "The Trophic Consequences of Oyster Stock Rehabilitation in Chesapeake Bay". Estuaries. 15 (3): 298–306. doi:10.2307/1352778. JSTOR 1352778. S2CID 84975440.
- Newell, R. 2004. Ecosystem Influences of Natural and Cultivated Populations of Suspension-Feeding Bivalve Molluscs: A Review. J. Shellfish Research, 23(1):51-61.
- Crisp, D. J.; Yule, A. B.; White, K. N. (1985). "Feeding by Oyster Larvae: The Functional Response, Energy Budget and a Comparison with Mussel Larvae". Journal of the Marine Biological Association of the United Kingdom. 65 (3): 759–783. doi:10.1017/S0025315400052589. S2CID 83713773.
- "A dozen ocean-cleaners and a pint of Guinness, please". The Economist. 18 December 2008. Retrieved 26 December 2008.
- "Oyster Restoration Projected to Provide Significant Boost to Bay Grasses While Removing Nitrogen Pollution from the Bay". Maryland Department of Natural Resources. Archived from the original on 3 September 2006. Retrieved 26 December 2008.
- Newell, R. I. E.; Fisher, T. R.; Holyoke, R. R.; Cornwell, J. C. (2005). "Influence of eastern oysters on nitrogen and phosphorus regeneration in the Chesapeake Bay, USA". In Dame, R.; Olenin, S. (eds.). The Comparative Roles of Suspension Feeders in Ecosystems, Vol. 47 (NATO Science Series IV: Earth and Environmental Sciences ed.). Netherlands: Springer. pp. 93–120. doi:10.1007/1-4020-3030-4_6.
- Grabowski, J. H.; Petersen, C. H. (2007). "Restoring oyster reefs to recover ecosystem services". In Cuddington, K.; Byers, J. E.; Wilson, W.G.; Hastings, A. (eds.). Ecosystem Engineers - Plants to Protists. Theoretical Ecology Series. Vol. 4 (Ecosystem Engineers: Concepts, Theory and Applications ed.). Amsterdam: Elsevier-Academic Press. pp. 281–298. doi:10.1016/S1875-306X(07)80017-7. ISBN 9780123738578.
- Rose JM, Tedesco M, Wikfors GH, Yarish C (2010). "International Workshop on Bioextractive Technologies for Nutrient Remediation Summary Report". US Dept Commer, Northeast Fish Sci Cent Ref Doc. 10–19; 12 p. Available from: National Marine Fisheries Service, 166 Water Street, Woods Hole, Massachusetts 02543-1026.
- Brown, Ashton (10 June 2013). "'Aquaculture' shellfish harvesting bill moves forward". Delaware State News. Archived from the original on 22 October 2013. Retrieved 11 June 2013.
- Schulte, David M.; Burke, Russell P.; Lipcius, Romuald N. (2009). "Unprecedented Restoration of a Native Oyster Metapopulation". Science. 325 (5944): 1124–1128. Bibcode:2009Sci...325.1124S. doi:10.1126/science.1176516. PMID 19644073. S2CID 206521248.
- Wikfors, Gary H. (2011). "Trophic Interactions Between Phytoplankton and Bivalve Aquaculture". Shellfish Aquaculture and the Environment. pp. 125–133. doi:10.1002/9780470960967.ch5. ISBN 9780813814131.
- Officer, C.B., T.J. Smayda & R. Mann. 1982. Benthic filter feeding, a natural eutrophication control. Marine Ecology Progress Series. 9:203–120.
- Lindahl, Odd; Hart, Rob; Hernroth, Bodil; Kollberg, Sven; Loo, Lars-Ove; Olrog, Lars; Rehnstam-Holm, Ann-Sofi; Svensson, Jonny; Svensson, Susanne; Syversen, Ulf (2005). "Improving Marine Water Quality by Mussel Farming: A Profitable Solution for Swedish Society". Ambio: A Journal of the Human Environment. 34 (2): 131–138. doi:10.1579/0044-7447-34.2.131. PMID 15865310. S2CID 25371433.
- Kimbro, D. L.; Grosholz, E. D. (2006). "Disturbance influences oyster community richness and evenness, but not diversity". Ecology. 87 (9): 2378–2388. doi:10.1890/0012-9658(2006)87[2378:diocra]2.0.co;2. PMID 16995638.
- Camara, Mark D.; Vadopalas, Brent (2009). "Genetic Aspects of Restoring Olympia Oysters and Other Native Bivalves: Balancing the Need for Action, Good Intentions, and the Risks of Making Things Worse". Journal of Shellfish Research. 28: 121–145. doi:10.2983/035.028.0104. S2CID 12695460.
- "Dishes with Oysters, Fruit, and Wine". National Gallery of Art. Retrieved 28 October 2018.
- "Oyster industry in NSW". NSW Department of Primary Industries. NSW Government. Archived from the original on 22 December 2015. Retrieved 20 December 2015.
- "10 pearls of wisdom about the opulent oyster". BBC. BBC. Retrieved 2 December 2021.
- Holland, Tom (2003). Rubicon. ISBN 978-0-385-50313-6.
- Kurlansky, Mark (2006). The Big Oyster: History on the Half Shell. New York: Ballantine Books. ISBN 978-0-345-47638-8.
- Clover, Charles (2004). The End of the Line: How overfishing is changing the world and what we eat. London: Ebury Press. ISBN 978-0-09-189780-2.
- "FAO Fisheries & Aquaculture - Aquatic species". www.fao.org.
- "Oyster Farming in Louisiana" (PDF). Louisiana State University. Archived from the original (PDF) on 1 December 2007. Retrieved 16 January 2008.
- Nell J. A. (2002). "Farming triploid oysters". Aquaculture. 210 (1–4): 69–88. doi:10.1016/S0044-8486(01)00861-4.
- Conte, Fred S. "California Oyster Culture" (PDF). University of California, Davis Department of Animal Science. Archived from the original (PDF) on 1 December 2007. Retrieved 16 January 2008.
- "Shellfish Tenures Locations Map". Archived from the original on 19 November 2007. Retrieved 16 January 2008.
- Fountain, Henry (3 August 2009). "Oysters Are on the Rebound in the Chesapeake Bay". The New York Times. Retrieved 25 August 2009.
- "Oyster-Tecture in Action". THE DIRT. 24 February 2011. Archived from the original on 14 April 2013. Retrieved 12 December 2017.
- "NY/NJ Baykeeper | Protect, Preserve, Restore". www.nynjbaykeeper.org. Retrieved 12 December 2017.
- "Oyster-tecture – SCAPE". SCAPE. Retrieved 12 December 2017.
- "Invasive Species Threaten Critical Habitats, Oyster Among Victims". ScienceDaily. 10 August 2009. Retrieved 1 November 2017.
- Quenqua, Douglas (25 October 2017). "Yes, Oysters Can 'Hear.' They Probably Wish We'd Clam Up". The New York Times. Archived from the original on 25 October 2017. Retrieved 1 November 2017.
- Ducker, James; Falkenberg, Laura J. (2020). "How the Pacific Oyster Responds to Ocean Acidification: Development and Application of a Meta-Analysis Based Adverse Outcome Pathway". Frontiers in Marine Science. 7. doi:10.3389/fmars.2020.597441. ISSN 2296-7745.
- Polite Conversations, 1738, cited e.g. in "Oyster Heaven". Wilmington Magazine. 24 November 2004. Retrieved 16 January 2008.
- "Nefsc Fish Faq". Nefsc.noaa.gov. 16 June 2011. Archived from the original on 4 October 2011. Retrieved 16 August 2011.
- Creamed Oysters and Leeks On Toast. Food and Wine. Retrieved 30 January 2020.
- "Fried Oyster". Best Malaysian Food Guide. Retrieved 24 July 2015.
- "Let's Cook Japanese – Kaki Furai (Oysters Deep-Fried in Breadcrumbs)". NHK World-Japan. NHK. 28 February 2020. Retrieved 21 August 2021.
- "Nutrition Facts and Analysis for Mollusks, oyster, eastern, wild, raw". Nutritiondata.com. Retrieved 16 August 2011.
- "Calories in pacific Oyster". Recipeofhealth.com. 28 March 2015.
- "Nutrients for 2 oyster, NFS, raw (28 g) Oysters, raw". nutritioncalculator.net. Retrieved 22 March 2020.
- Stott, Rebecca (2004). Oyster. The University of Chicago Press. ISBN 9781861892218. Retrieved 16 January 2008.
- "Pearly wisdom: oysters are an aphrodisiac". The Sydney Morning Herald. 24 March 2005.
- Mateer, Noelle (11 September 2019). "Competitive Oyster Shucking Is Real, Decadent, And China's Best Party". Deadspin. Retrieved 24 September 2022.
- Melia, Paul (27 September 2010). "Clodagh gets a real taste of the festival atmosphere". Irish Independent. Retrieved 18 September 2021.
- Comparison of archived title of the game:
- "Guinness World Oyster Opening Championship". Galway Oyster Festival. Archived from the original on 23 September 2010. Retrieved 18 September 2021.
- "Bollinger World Oyster Opening Championship - Craobhchomórtas Domhanda Oscailt Oisrí". Galway Oyster Festival. Archived from the original on 17 October 2011. Retrieved 18 September 2021.
- "World Oyster Opening Championship - Craobhchomórtas Domhanda Oscailt Oisrí". Galway Oyster Festival. Archived from the original on 21 December 2013. Retrieved 18 September 2021.
- Thomson, Julie (25 May 2017). "Raw Oysters Are Alive Until You Eat Them, In Case You Didn't Know". HuffPost.
- "Safely Cooking Oysters and Other Molluscan Shellfish". SafeOysters.org. 9 March 2009. Archived from the original on 15 June 2015. Retrieved 13 June 2015.
- Jones, M. K.; Oliver, J. D. (1 May 2009). "Vibrio vulnificus: Disease and Pathogenesis". Infection and Immunity. 77 (5): 1723–1733. doi:10.1128/IAI.01046-08. ISSN 0019-9567. PMC 2681776. PMID 19255188.
- Bivalve Depuration: fundamental and practical aspects (PDF). FAO (Report). Rome. 2008. ISBN 9789251060063. Fisheries Technical paper No. 511.
- (Code of Practice for fish and fishery products (first edition) Rome 2009. WHO and FAO ISBN 978-92-5-105914-2)
- Phuvasate, Sureerat; Su, Yi-Cheng (2013). "Impact of water salinity and types of oysters on depuration for reducing Vibrio parahaemolyticus in Pacific oysters (Crassostrea gigas)". Food Control. 32 (2): 569–573. doi:10.1016/j.foodcont.2013.01.025.
- "Oyster Diseases". Connecticut Department of Agriculture. Retrieved 16 January 2008.
- "MSX/Dermo". Chesapeake Bay Program. Archived from the original on 1 March 2009. Retrieved 5 April 2009.
External links
- MolluSCAN eye Archived 2016-11-13 at the Wayback Machine, a website devoted to the online study of molluscan bivalve behavior around the world, including oysters. Daily update.
- World of Boats (EISCA) Collection ~ Fal Oyster Boat, Sunny South
- Oysters grown on trestles in Ireland
- Oyster farming in the Rivers Crouch, Roach and Blackwater of Eastern Essex Archived 2009-07-03 at the Wayback Machine
- . New International Encyclopedia. 1905.