Mussel
From Wikipedia, the free encyclopedia
Mussel is the common name used for members of several families
of clams or bivalvia mollusca, from saltwater and freshwater
habitats. These groups have in common a shell whose outline is elongated and
asymmetrical compared with other edible clams, which are often more or less
rounded or oval.
The word
"mussel" is most frequently used to mean the edible bivalves of the
marine family Mytilidae, most of which live on exposed shores
in the intertidal zone, attached by means of their strong byssal threads ("beard") to a firm substrate. A few
species (in the genus Bathymodiolus) have
colonised hydrothermal vents
associated with deep ocean ridges.
In most marine
mussels the shell is longer than it is wide, being wedge-shaped or
asymmetrical. The external colour of the shell is often dark blue, blackish, or
brown, while the interior is silvery and somewhat nacreous.
The word
"mussel" is also used for many freshwater bivalves, including the freshwater pearl
mussels. Freshwater mussel species inhabit lakes, ponds, rivers,
creeks, canals, grouped in a different subclass,
despite some very superficial similarities in appearance.
Freshwater Zebra mussels and their relatives in the family Dreissenidae are not related to previously
mentioned groups, even though they resemble many Mytilus species in
shape, and live attached to rocks and other hard surfaces in a similar manner,
using a byssus. They are classified with the Heterodonta, the taxonomic group which includes
most of the bivalves commonly referred to as "clams".
General anatomy
The mussel's
external shell is composed of two hinged halves or "valves". The
valves are joined together on the outside by a ligament, and are closed when
necessary by strong internal muscles. Mussel shells carry out a variety of
functions, including support for soft tissues, protection from predators and
protection against desiccation.
The shell has
three layers. In the pearly mussels there is an inner iridescent layer of nacre
(mother-of-pearl) composed of calcium carbonate, which is continuously secreted
by the mantle; the prismatic layer, a middle layer of chalky white crystals of
calcium carbonate in a protein matrix; and the periostracum, an outer pigmented layer resembling
a skin. The periostracum is composed of a protein called conchin, and its function is to protect the
prismatic layer from abrasion and dissolution by acids (especially important in
freshwater forms where the decay of leaf materials produces acids).
Like most
bivalves, mussels have a large organ called a foot. In freshwater mussels, the
foot is large, muscular, and generally hatchet-shaped. It is used to pull the
animal through the substrate (typically sand, gravel, or silt) in which it lies
partially buried. It does this by repeatedly advancing the foot through the
substrate, expanding the end so it serves as an anchor, and then pulling the
rest of the animal with its shell forward. It also serves as a fleshy anchor
when the animal is stationary.
In marine
mussels, the foot is smaller, tongue-like in shape, with a groove on the
ventral surface which is continuous with the byssus pit. In this pit, a viscous secretion is exuded,
entering the groove and hardening gradually upon contact with sea water. This
forms extremely tough, strong, elastic, byssus threads that secure the mussel to its substrate. The
byssus thread is also sometimes used by mussels as a defensive measure, to
tether predatory molluscs, such as dog whelks, that invade mussel beds, immobilising
them and thus starving them to death.
In cooking, the
byssus of the mussel is known as the "beard" and is removed before
the mussels are prepared.
Life habits
Feeding Both marine
and freshwater mussels are filter feeders; they
feed on plankton and other microscopic sea creatures
which are free-floating in seawater. A mussel draws water in through its
incurrent siphon. The water is then brought into the branchial chamber by the
actions of the cilia located on the gills
for ciliary-mucus feeding. The wastewater exits through the excurrent siphon.
The labial palps finally funnel the food into the mouth, where digestion
begins.
Marine mussels
are usually found clumping
together on wave-washed rocks, each attached to the rock by its byssus. The clumping habit helps hold the mussels firm against
the force of the waves. At low tide mussels in the middle of a clump will
undergo less water loss because of water capture by the other mussels.
Reproduction Both marine
and freshwater mussels are gonochoristic, with
separate male and female individuals. In marine mussels, fertilization occurs
outside the body, with a larval stage that drifts for three weeks to six months,
before settling on a hard surface as a young mussel. There, it is capable of
moving slowly by means of attaching and detaching byssal threads to attain a
better life position.
Freshwater
mussels reproduce sexually. Sperm is released by the male directly into the
water and enters the female via the incurrent siphon. After fertilization, the
eggs develop into a larval stage called a glochidium (plural glochidia), which temporarily
parasitize fish, attaching themselves to the fish's fins or gills. Prior to
their release, the glochidia grow in the gills of the female mussel where they
are constantly flushed with oxygen-rich water. In some species, release occurs
when a fish attempts to attack the mussel's minnow or other mantle flaps shaped
like prey; an example of aggressive mimicry.
Glochidia are
generally species-specific, and will only live if they find the correct fish
host. Once the larval mussels attach to the fish, the fish body reacts to cover
them with cells forming a cyst, where the glochidia remain
for two to five weeks (depending on temperature). They grow, break free from
the host, and drop to the bottom of the water to begin an independent life.
Predators Marine mussels
are eaten by humans, starfish, seabirds, and by
numerous species of predatory marine gastropods in the family Muricidae, such as the dog whelk, Nucella lapillus. Freshwater
mussels are eaten by otters, raccoons, ducks, baboons (off the coast of South
Africa) and geese.
Distribution and habitat
Marine mussels
are abundant in the low and mid intertidal zone in temperate seas globally.
Other species of marine mussel live in tropical intertidal areas, but not in
the same huge numbers as in temperate zones.
Certain species
of marine mussels prefer salt marshes or quiet bays, while others thrive in
pounding surf, completely covering wave-washed rocks. Some species have
colonized abyssal depths near hydrothermal vents.
The South African white mussel exceptionally doesn't bind itself to rocks but
burrows into sandy beaches extending two tubes above the sand surface for
ingestion of food and water and exhausting wastes.
Freshwater
mussels inhabit permanent lakes, rivers, canals and streams throughout the
world except in the polar regions. They require a constant source of cool,
clean water. They prefer water with a substantial mineral content, using
calcium carbonate to build their shells.
Aquaculture
In 2005, China
accounted for 40 per cent of the global mussel catch according to a FAO
study.[1] Within Europe, where mussels have been
cultivated for centuries, Spain remained the industry leader. Aquaculture of
mussels in North America began in the 1970′s.[2] In the U.S, the northeast and northwest
have significant mussel aquaculture operations, where Mytilus edulis
(blue mussel) is most commonly grown. While the mussel industry in the U.S. has
increased, in North America, 80% of cultured mussels are still produced in Prince Edward Island
in Canada.[3] In Washington (state),
an estimated 2.9M pounds of mussels were harvested in 2010 valuing roughly
$4.3M.[4]
Culture Methods Freshwater
mussels are used as host animals for the cultivation of freshwater pearls. Some species of marine mussel,
including the Blue Mussel (Mytilus
edulis) and the New Zealand
green-lipped mussel (Perna canaliculus), are also cultivated
as a source of food.
In some areas
of the world, mussel farmers collect naturally occurring marine mussel seed for
transfer to more appropriate growing areas, however, most North American mussel
farmers rely on hatchery-produced seed.[2] Growers typically purchase seed after
it has set (about 1mm in size) or after it has been nursed in upwellers for 3-6
additional weeks and is 2-3mm.[2] The seed is then typically reared in a
nursery environment, where it is transferred to a material with a suitable
surface for later relocation to the growing area. After about three months in
the nursery, mussel seed is “socked” (placed in a tube-like mesh material) and
hung on longlines or rafts for grow-out. Within a few days, the mussels migrate
to the outside of the sock for better access food sources in the water column.
Mussels grow quickly and are usually ready for harvest in less than two years.
Unlike other cultured bivalves, mussels use byssus threads (beard) to attach
themselves to any firm substrate, which makes them suitable for a number of
culture methods. There are a variety of techniques for growing mussels.
- Bouchot
culture:
Intertidal growth technique, or bouchot technique: pilings, known in
French as bouchots, are planted at sea; ropes, on which the mussels grow,
are tied in a spiral on the pilings; some mesh netting prevents the
mussels from falling away. This method needs an extended tidal zone.
- On-bottom
culture: On-bottom
culture is based on the principle of transferring mussel seed (spat) from
areas where they have settled naturally to areas where they can be placed
in lower densities to increase growth rates, facilitate harvest, and
control predation (Mussel farmers must remove predators and macroalgae
during the growth cycle).[2]
- Raft
culture: Raft
culture is a commonly used method throughout the world. Lines of rope mesh
socks are seeded with young mussels and suspended vertically from a raft.
The specific length of the socks depends on depth and food availability.
- Longline
culture (rope culture): Mussels are cultivated extensively in New Zealand,
where the most common method is to attach mussels to ropes which are hung
from a rope back-bone supported by large plastic floats. The most common
species cultivated in New Zealand is the New Zealand green-lipped mussel.
Longline culture is the most recent development for mussel culture[2] and are often used as an
alternative to raft culture in areas that are more exposed to high wave
energy. A long-line is suspended by a series of small anchored floats and
ropes or socks of mussels are then suspended vertically from the line.
Harvest: In roughly
12-15 months, mussels reach marketable size (40mm) and are ready for harvest
(FAO). Harvesting methods depend on the grow-out area and the rearing method
being used. Dredges are currently used for on-bottom culture. Mussels grown on
wooden poles can be harvested by hand or with a hydraulic powered system (FAO).
For raft and longline culture, a platform is typically lowered under the mussel
lines, which are then cut from the system and brought to the surface and dumped
into containers on a nearby vessel. After harvest, mussels are typically placed
in seawater tanks for depuration before marketing.
Mussels and nutrient mitigation
Marine nutrient
bioextraction is the practice of farming and harvesting marine organisms such
as shellfish and seaweed for the purpose of reducing nutrient pollution.
Mussels and other bivalve shellfish consume phytoplankton containing nutrients
such as nitrogen (N) and phosphorus (P). On average, one live mussel is
1.0% N and 0.1% P.[5] When the mussels are harvested and
removed, these nutrients are also removed from the system and recycled in the
form of seafood or mussel biomass, which can be used as an organic fertilizer
or animal feed-additive. These ecosystem services
provided by mussels are of particular interest to those hoping to mitigate
excess anthropogenic marine nutrients, particularly in eutrophic marine
systems. While mussel aquaculture is actually promoted in some countries such
as Sweden as a water management strategy to address coastal eutrophication,[6] mussel farming as a nutrient mitigation
tool is still in its infancy in most parts of the world. Ongoing efforts in the
Baltic Sea (Denmark, Sweden, Germany, Poland) and Long Island Sound[7] and Puget Sound[8] in the U.S. are currently examining
nutrient uptake, cost-effectiveness, and potential environmental impacts of
mussel farming as a means to mitigate excess nutrients and compliment
traditional wastewater treatment programs.
As food
Humans have
used mussels as food for thousands of years and continue to do so. About 17
species are edible, of which the most commonly eaten are Mytilus edulis, M.
galloprovincialis, M. trossellus and Perna canaliculus.[9]
Freshwater
mussels nowadays are generally considered to be unpalatable, though the native
peoples in North America ate them extensively. During the second World War in
the United States, mussels were commonly served in diners. This was due to the
unavailability of red meat related to wartime rationing.[10]
In Belgium, the Netherlands, and France, mussels are consumed with french fries ("mosselen met friet" or
"moules-frites") or bread. In Belgium,
mussels are sometimes served with fresh herbs and flavorful vegetables in a
stock of butter and white wine. Frites/Frieten and Belgian beer sometimes are accompaniments. In the
Netherlands, mussels are sometimes served fried
in batter or breadcrumbs, particularly at take-out food outlets or informal settings. In
France, the Éclade des Moules
is a mussel bake that can be found along the beaches of the Bay of Biscay.
In Italy,
mussels are mixed with other sea food, they are consumed often steam cooked
(most popular), sometimes with white wine, herbs, and served with the remaining
water and some lemon. In Spain, they are consumed mostly
steam cooked, sometimes boiling white wine, onion and herbs, and served with
the remaining water and some lemon. They can also be eaten as "tigres",
a sort of croquette using the mussel meat, shrimps and
other pieces of fish in a thick bechamel then breaded and fried in the clean
mussel shell. They are used in other sort of dishes such as rices or soups or
commonly eaten canned in a pickling brine made of oil,
vinegar, peppercorns, bay leaves and paprika. In Turkey, mussels are either covered with flour and fried on
shishs ('midye tava'), or filled with rice and served cold ('midye dolma') and
are usually consumed after alcohol (mostly raki or
beer). They are used in Ireland boiled and seasoned
with vinegar, with the "bray" or boiling water as a supplementary hot
drink. In Cantonese cuisine,
mussels are cooked in a broth of garlic and fermented black bean. In New Zealand, they are served in a chili or
garlic-based vinaigrette, processed
into fritters and fried, or used as the base for a chowder. In India, mussels
are popular in Kerala, Maharashtra, Karnataka-Bhatkal, and Goa.
They are either prepared with drumsticks, breadfruit or other vegetables, or filled with
rice and coconut paste with spices and served hot. Fried mussels ('Kadukka' in
Malayalam) of north Kerala are a spicy, favored delicacy.
Preparation
Mussels can be
smoked, boiled, steamed, roasted, barbecued or fried in butter or vegetable
oil. As with all shellfish, except shrimp,
mussels should be checked to ensure they are still alive just before they are
cooked; enzymes quickly break down the meat and make them unpalatable or
poisonous after dying or un cooked.[citation needed]Some
mussels might contain toxins.[11] A simple criterion is that live
mussels, when in the air, will shut tightly when disturbed. Open, unresponsive
mussels are dead, and must be discarded. Unusually heavy, wild caught, closed
mussels may be discarded as they may contain only mud or sand. (They can be
tested by slightly opening the shell halves.) A thorough rinse in water and
removal of "the beard" is suggested. Mussel shells usually open when
cooked, revealing the cooked soft parts.
Although
mussels are valued as food, mussel poisoning due to toxic planktonic organisms
can be a danger along some coastlines. For instance, mussels should be avoided
along the west coast of the United States during the warmer months. This
poisoning is usually due to a bloom of dinoflagellates (red tides), which contain
toxins. The dinoflagellates and their toxin are harmless to mussels, even when
concentrated by the mussel's filter feeding, but if the mussels are consumed by
humans, the concentrated toxins cause serious illness, such as paralytic
shellfish poisoning.
Nutrition highlights
Raw
blue mussels[12]
|
|
Serving size
|
3 ounces (85 g)
|
70
|
|
10.1 g
|
|
3.1 g
|
|
0.0 g
|
|
Total fat
|
1.9 g
|
0.4 g
|
|
243 mg
|
|
- Excellent
source of: Selenium (76 mcg), and vitamin B12 (20 mcg)
- Good
source of: Zinc (2.3 mg), and folate (64 mcg)
Foods that are
an “excellent source” of a particular nutrient provide 20% or more of the recommended daily
value. Foods that are a “good source” of a particular nutrient
provide between 10 and 20% of the recommended daily value.
See also
The entire wiki article can be found
at: http://en.wikipedia.org/wiki/Mussel
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