Shipwreck
A shipwreck is the remains of a ship that has wrecked, which are found either beached on land or sunken to the bottom of a body of water. Shipwrecking may be deliberate or accidental. In January 1999, Angela Croome estimated that there have been about three million shipwrecks worldwide.
Types
Historic wrecks are attractive to maritime archaeologists because they preserve historical information: for example, studying the wreck of revealed information about seafaring, warfare, and life in the 16th century. Military wrecks, caused by a skirmish at sea, are studied to find details about the historic event; they reveal much about the battle that occurred. Discoveries of treasure ships, often from the period of European colonisation, which sank in remote locations leaving few living witnesses, such as, do occur as well.Some contemporary wrecks, such as the oil tankers Prestige or, are of interest primarily because of their potential harm to the environment. Other contemporary wrecks are scuttled in order to spur reef growth, such as and Ocean Freeze. Wrecks like and historic wrecks such as are of interest to recreational divers that dive to shipwrecks because they are interesting to explore, provide large habitats for many types of marine life, and have an interesting history.
Well known shipwrecks include the catastrophic,,,,,, or. There are also thousands of wrecks that were not lost at sea but have been abandoned or sunk. These abandoned, or derelict ships are typically smaller craft, such as fishing vessels. They may pose a hazard to navigation and may be removed by port authorities.
Causes
Poor design, improperly stowed cargo, navigation and other human errors leading to collisions, bad weather, fire, and other causes can lead to accidental sinkings. Intentional reasons for sinking a ship include: intending to form an artificial reef; destruction due to warfare, piracy, mutiny or sabotage; using the vessel for target practice; or removing a menace to navigation. A ship can be also used as breakwater structure.State of preservation
Many factors determine the state of preservation of a wreck:- the ship's construction materials
- the wreck becoming covered in sand or silt
- the salinity of the water the wreck is in
- the level of destruction involved in the ship's loss
- whether the components or cargo of the wreck were salvaged
- whether the wreck was demolished to clear a navigable channel
- the depth of water at the wreck site
- the strength of tidal currents or wave action at the wreck site
- the exposure to surface weather conditions at the wreck site
- the presence of marine animals that consume the ship's fabric
- temperature
- the acidity, and other chemical characteristics of the water at the site
Stratification includes several different types of sand and silt, as well as tumulus and encrustations. These "sediments" are tightly linked to the type of currents, depth, and the type of water, which implies any chemical reactions that would affect potential cargo.
Besides this geological phenomenon, wrecks also face the damage of marine creatures that create a home out of them, primarily octopuses and crustaceans. These creatures affect the primary state because they move, or break, any parts of the shipwreck that are in their way, thereby affecting the original condition of amphorae, for example, or any other hollow places. Finally, in addition to the slight or severe destruction marine animals can create, there are also "external" contaminants, such as the artifacts on and around the wreck at Pickles Reef and the over-lapping wrecks at the Molasses Reef Wreck, or contemporary pollution in bodies of water, that severely affect shipwrecks by changing the chemical structures, or further damaging what is left of a specific ship.
Despite these challenges, if the information retrieved does not appear to be sufficient, or a poor preservation is achieved, authors like J.A. Parker claim that it is the historical value of the shipwreck that counts as well as any slight piece of information or evidence that is acquired.
Construction materials
Exposed wooden components decay quickly. Often the only wooden parts of ships that remain after a century are those that were buried in silt or sand soon after the sinking. An example of this is Mary Rose.Steel and iron, depending on their thickness, may retain the ship's structure for decades. As corrosion takes place, sometimes helped by tides and weather, the structure collapses. Thick ferrous objects such as cannons, steam boilers or the pressure vessel of a submarine often survive well underwater in spite of corrosion.
Propellers, condensers, hinges and port holes were often made from non-ferrous metals such as brass and phosphor bronze, which do not corrode easily.
Salinity of water
Freshwater and low saline
Shipwrecks in some freshwater lakes, such as the Great Lakes of North America, have remained intact with little degradation. In some sea areas, most notably in Gulf of Bothnia and Gulf of Finland, salinity is very low, and centuries-old wrecks have been preserved in reasonable condition. However, bacteria found in fresh water cause the wood on ships to rot more quickly than in seawater unless it is deprived of oxygen. Two shipwrecks, and, have been at the bottom of Lake Ontario since they sunk during a violent storm on August 8, 1813, during the War of 1812. They are in "remarkably good" condition.Seawater
Wrecks typically decay rapidly when in seawater. There are several reasons for this:- Iron-based metals corrode much more quickly in seawater because of the dissolved salt present; the sodium and chloride ions chemically accelerate the process of metal oxidation which, in the case of ferrous metals, leads to rust. Such cases are prominent on deep-water shipwrecks, such as RMS Titanic, , and . However, there are some exceptions; RMS Empress of Ireland lies in the saltwater portion of the St. Lawrence River, but is still in remarkably good condition.
- Unprotected wood in seawater is rapidly consumed by shipworms and small wood-boring sea creatures. Shipworms found in higher salinity waters, such as the Caribbean, are notorious for boring into wooden structures that are immersed in sea water and can completely destroy the hull of a wooden shipwreck.
Loss, salvage, and demolition
Examples of severe destruction at the time of loss are:
- Being blown onto a beach, reef, or rocks during a storm, termed "grounding"
- Collision with another ship
- Catastrophic explosion, steamship boilers often explode when water covers them during the process of sinking
- Fire that burns for a long time before the ship sinks
- Foundering, i.e., taking in so much water that buoyancy is lost and the ship sinks ; some ships with a dense cargo may break up when sinking quickly and hitting a rocky seabed
- Enemy action from aerial bombs or torpedoes that may cause destruction before sinking
Shipwrecks in shallow water near busy shipping lanes are often demolished or removed to reduce the danger to other vessels. On charts, some wreck symbols have a line under the symbol with a depth mark, which indicates the water depth above the wreck.
Depth, tide and weather
On the seabed, wrecks are slowly broken up by the forces of wave action caused by the weather and currents caused by tides. Also more highly oxygenated water, which promotes corrosion, reduces the strength of ferrous structural materials of the ship. Deeper wrecks are likely to be protected by less exposure to water movement and by lower levels of oxygen in water.Temperature
Extreme cold slows the degradation of organic ship materials. Decay, corrosion and marine encrustation are inhibited or largely absent in cold waters.Natural deterioration process
Iron and steel wrecks are subject to corrosion, which is most rapid in shallow sea water where the salinity induces galvanic corrosion, oxygen content is high and water movement replenishes the oxygen rapidly. In deeper water and in still water the corrosion rates can be greatly reduced. Corrosion rates of iron and steel are also reduced when concretions, solid layers of rust, or layers of marine organisms separate the metal from the ambient water, and encourage the development of a layer of relatively stable black oxide in the hypoxic layers.Ships that sink upright onto a sand bottom tend to settle into the sand to a similar level to that at which they would normally float at the surface. The thinner materials of the upper works tend to break up first, followed by the decks and deck beams, and the hull sides unsupported by bulkheads. The bow and stern may remain relatively intact for longer as they are usually more heavily constructed. Heavy machinery like boilers, engines, pumps, winches, propellers, propeller shafts, steering gear, anchors and other heavy fittings also last longer and can provide support to the remaining hull, or cause it to collapse more rapidly. Vessels that come to rest upside down on a yielding seabed can be relatively stable, although the upper decks usually collapse under the load and machinery and fittings fall. Wrecks that rest on their side tend to deteriorate quickly, as the loads are not what they were designed to support, and poorly supported hull sides give way fairly soon and the wreckage collapses. Wrecks supported by a rocky seabed tend to collapse over and around the rocks relatively rapidly. Submarines tend to last longer as they are built much more strongly to withstand the working loads of external pressure, and may last for centuries.
Value
A shipwreck may have value in several forms:- Cultural heritage,
- Recreational diving and other tourism attraction
- scientific, educational and monetary values
- *Artificial reefs
- *Monetary value of salvageable cargo and components
Salvage
Legal aspects
Shipwreck law determines important legal questions regarding wrecks, perhaps the most important question being the question of ownership. Legally wrecks are divided into wreccum maris and adventurae maris, which are treated differently by some, but not all, legal systems.auction in Amsterdam for the cargo of the Dutch East India Company ship Geldermalsen
Wrecks are often considered separately from their cargo. For example, in the British case of Lusitania QB 384 it was accepted that the remains of the vessel itself were owned by the insurance underwriters who had paid out on the vessel as a total loss by virtue of the law of subrogation, but that the property aboard the wreck still belonged to its original owners or their heirs.
Military wrecks, however, remain under the jurisdiction–and hence protection–of the government that lost the ship, or that government's successor. Hence, a German U-boat from World War II still technically belongs to the German government, although the Third Reich is long-defunct. Many military wrecks are also protected by virtue of being war graves.
However, many legal systems allow the rights of salvors to override the rights of the original owners of a wreck or its cargo. As a general rule, non-historic civilian shipwrecks are considered fair game for salvage. Under international maritime law, for shipwrecks of a certain age, the original owner may have lost all claim to the cargo. Anyone who finds the wreck can then file a salvage claim on it and place a lien on the vessel, and subsequently mount a salvage operation. The State of North Carolina questionably claims "all photographs, video recordings, or other documentary materials of a derelict vessel or shipwreck or its contents, relics, artifacts, or historic materials in the custody of any agency of North Carolina government or its subdivisions" to be its property.
Some countries assert claims to all wrecks within their territorial waters, irrespective of the interest of the original owner or the salvor.
Some legal systems regard a wreck and its cargo to be abandoned if no attempt is made to salvage them within a certain period of time. English law has usually resisted this notion, but it has been accepted to a greater or lesser degree in an Australian case and in a Norwegian case.
The American courts have been inconsistent between states and at Federal level. Under Danish law, all shipwrecks over 150 years old belong to the state if no owner can be found. In Spain, wrecks vest in the state if not salvaged within 3 years. In Finland, all property on board shipwrecks over 100 years old vests in the state.
The British Protection of Wrecks Act, enacted to protect historic wrecks, controls access to wrecks such as Cattewater Wreck which can only be visited or investigated under licence. The British Protection of Military Remains Act 1986 also restricts access to wrecks which are sensitive as war graves. The Protection of Military Remains Act in some cases creates a blanket ban on all diving; for other wrecks divers may visit provided they do not touch, interfere with or penetrate the wreck. In the United States, shipwrecks in state waters are regulated by the Abandoned Shipwrecks Act of 1987. This act is much more lenient in allowing more open access to the shipwrecks.
Following the beaching of, as a result of severe damage incurred during European storm Kyrill, there was confusion in the press and by the authorities about whether people could be prevented from helping themselves to the flotsam which was washed up on the beaches at Branscombe. Many people took advantage of the confusion and helped themselves to the cargo. This included many BMW motorbikes and empty wine casks as well as bags of disposable nappies. The legal position under the Merchant Shipping Act 1995 is that any such finds and recovery must be reported within 28 days to the Receiver of Wreck. Failure to do so is an offence under the Merchant Shipping Act and can result in a criminal record for theft by finding. After several days, the police and Receiver of Wreck, in conjunction with the landowner and the contracted salvors, established a cordon to prevent access to the beach. A similar situation occurred after the wreck of in 1997.
Historic wrecks are often protected from pillaging and looting through national laws protecting cultural heritage. Internationally they may be protected by a State ratifying the Unesco Convention on the Protection of the Underwater Cultural Heritage. In this case pillaging is not allowed. One such example is which is undergoing archaeological recovery by the North Carolina Department of Cultural Resources near Beaufort Inlet, NC.
An important international convention aiming at the protection of underwater cultural heritage is the Convention on the Protection of the Underwater Cultural Heritage.
The 2001 UNESCO Convention on the Protection of the Underwater Cultural Heritage represents the international community's response to the increasing looting and destruction of underwater cultural heritage. It forms part of a group of UNESCO standard setting instruments regarding the domain of cultural heritage, encompassing seven conventions adopted by UNESCO Member States, which constitute a coherent and complementary body guaranteeing a complete protection of all forms of cultural heritage.
The UNESCO 2001 Convention is an international treaty aimed exclusively at the protection of underwater cultural heritage and the facilitation of international cooperation in this regard. It does not change sovereignty rights of States or regulate the ownership of wrecks or submerged ruins.
Notable salvages
In 2011, the most valuable cargo of a sunken shipwreck was identified near the western edge of the Celtic Sea. This World War II era sinking of led to a treasure almost deep.A U.S. federal court and a panel from the United States Court of Appeals for the Eleventh Circuit have upheld the Spanish claim to the contents of the ship ; Spain took control of the treasure in February 2012. A very small number of coins and effects recovered from the ship were deposited in Gibraltar, because they showed clear signs coherent with an internal explosion on the ship and thus confirmed Spanish claims to the wreck being that of the Nuestra Señora de las Mercedes. They were not returned to Spain until 2013, when a court finally ordered Odyssey Marine to return the missing pieces.
Archaeologist Valerios Stais discovered one of the most notable instruments of time keeping and prediction of celestial events off the coast of the Greek island Antikythera on May 17, 1902. The device, known as the Antikythera Mechanism, is perhaps the earliest example of what would be known as today as an analog computer, and the technology it encompasses predates any other recorded description by hundreds or thousands of years.