, Netherlands, oysters are kept in large oyster pits after "harvesting", until they are sold. Seawater is pumped in and out, simulating the
tide Oysters naturally grow in
estuarine bodies of
brackish water. When farmed, the temperature and salinity of the water are controlled (or at least monitored), so as to induce spawning and fertilization, as well as to speed the rate of maturation – which can take several years. The first step to cultivating oysters is conditioning broodstock. Broodstock are the "parent" oysters that will provide gametes for larvae. Oysters in the wild are only "ripe" with gametes for a short window. All of the oysters in an area will spawn at the same time to increase the chances that their gametes meet and fertile larvae are produced. To ensure ripe oysters for spawning throughout the season, some growers choose to keep mature oysters in a separate system where the farmer can manipulate the temperature and food within the system. While a recirculating system can be used, a flow-through system is generally better because the natural diversity of phytoplankton is a better diet for conditioning oysters. By setting up this separate system, the farmer can mimic the transition from winter to summer quicker than real-time, and essentially convince the oyster that it is time to spawn whenever the farmer needs more larvae. When the farmer actually wants to spawn the oysters, they will put a batch of oysters in a tray and rapidly heat and cool the water to induce spawning. It is important to have a large number of oysters, because it is impossible to tell if an oyster is male or female from its outer appearance. Once the oysters start to spawn they can be picked up and placed into their own separate containers until they have released all of their gametes. Eggs and sperm can then be mixed together to fertilize. Larvae tanks should be cleaned and disinfected before putting water in the tanks. Water quality should be tailored for the particular species, but most larvae will generally grow faster in warmer water. After the fertilized eggs and beginning-stage larvae have been added to the tank, they should be fed filtered or cultured algae daily, and have their water changed every-other day. This ensures no pathogens or foreign organisms enter the system and compete with or eat the larvae, and their water quality stays pristine to encourage growth. This is the most fragile stage of an oyster's life history. After about two weeks an oyster will be ready to set. They will develop a small, round discoloration called an eyespot despite not being used for seeing. Their muscular foot will be visible under a microscope. At this point, the larvae can be put in a system with a variety of cultch options. The best cultch is usually full or ground up oyster shell because oysters are naturally attracted to other oyster shell to ensure their future reproductive success. The loose spat may be allowed to mature further to form "seed" oysters with small shells. In either case (spat or seed stage), they are then set out to mature. The maturation technique is where the cultivation method choice is made. In one method the spat or seed oysters are distributed over existing oyster beds and left to mature naturally. Such oysters will then be collected using the methods for
fishing wild oysters, such as
dredging. In the second method the spat or seed may be put in racks, bags, or cages (or they may be glued in threes to vertical ropes) which are held above the bottom. Oysters cultivated in this manner may be harvested by lifting the bags or racks to the surface and removing mature oysters, or simply retrieving the larger oysters when the enclosure is exposed at low tide. The latter method may avoid losses to some predators, but is more expensive. In the third method the spat or seed are placed in a cultch within an artificial maturation tank. The maturation tank may be fed with water that has been especially prepared for the purpose of accelerating the growth rate of the oysters. In particular the temperature and salinity of the water may be altered somewhat from nearby ocean water. The
carbonate minerals calcite and
aragonite in the water may help oysters develop their shells faster and may also be included in the water processing prior to introduction to the tanks. This latter cultivation technique may be the least susceptible to predators and poaching, but is the most expensive to build and to operate. The
Pacific oyster M. gigas is the species most commonly used with this type of farming. File:Oyster culture in Belon, France 03.jpg|Working on oysters at Belon,
Brittany,
France 2005 File:Oyster Farm South Australia.JPG |Oyster farm in South Australia File:Oyster farmers at LFS Fish Market 2013.JPG|Oyster shucking at
Lau Fau Shan,
Hong Kong File:Oyster farming, Walvis Bay (Namibia).jpg|Oyster farming at
Walvis Bay,
Namibia File:France Oyster Harvest bordercropped.jpg|Harvesting oysters from the pier at
Cancale,
Brittany, France 2005 File:Bateaux ostreicoles Bretagne.jpg Oyster farming boats in
Morbihan, France File:Oyster Farming.jpg |Harvesting oysters from beds by hand in
Willapa Bay, Washington state, United States File:PEI oyster farm 06.JPG |Oysters farmed in baskets on
Prince Edward Island, Canada File:33-Andernos-les-Bains-Barques des parqueurs -d'huîtres-vers 1920.JPG |Boats used for culturing oysters in the
Gironde estuary, France (circa 1920) File:Chaillevette 17 Chaland 2013.jpg |Flat bottomed oyster-boat with oyster-bags in
Chaillevette, France
Boats During the nineteenth century in the United States, various shallow draft sailboat designs were developed for oystering in
Chesapeake Bay. These included the
bugeye,
log canoe,
pungy,
sharpie and
skipjack. During the 1880s, a powerboat called the
Chesapeake Bay deadrise was also developed. Since 1977, several boat builders in Brittany have built specialized amphibious vehicles for use in the area's
mussel and oyster farming industries. The boats are made of aluminium, are relatively flat-bottomed, and have three, four, or six wheels, depending on the size of the boat. When the tide is out the boats can run on the tidal flats using their wheels. When the tide is in, they use a propeller to move themselves through the water. Oyster farmers in
Jersey make use of similar boats. ==Environmental impact==