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Shipwrecking

( Nautical Terminology )

Causes

Design and equipment fai..
Instability and founderi..
Bad weather
Rogue waves
Fire
Navigation errors

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Shipwrecking as a noun is the loss of a ship, and as a verb it means to cause irreparable damage to a ship which will cause such loss."Shipwrecking." Accessed 10 Oct. 2025. Modes of shipwrecking include by running aground or sinking, which can be the consequence of a wide range of possible causes. An abandoned vessel which is not a wreck is a derelict. The resulting physical remains of a wrecked ship are called shipwreck or wreckage."Shipwreck." Accessed 10 Oct. 2025.

Causes

Possible causes for shipwrecking include ship collision causing the ship to flood and sink; the stranding of a ship on rocks, land or shoal; poor maintenance, resulting in a lack of seaworthiness; or the destruction of a ship either intentionally or by violent weather. Factors for the loss of a ship may include:

poor design or failure of the ship's equipment or hull - submarine hull
instability, due to poor design, improperly stowed cargo, cargo that shifts its position or the free surface effect
navigation errors and other human errors, leading to (with another ship, rocks, an iceberg (), etc.) or Ship grounding ( Costa Concordia)
bad weather and powerful or large waves or gale winds: This often leads to a vessel being swamped by waves, holed on rocks or a reef, or capsizing, also referred to as foundering
warfare, piracy, mutiny, or sabotage including: Naval artillery, , , naval mine, and
fire
biofouling, such as accumulation of polychaete and other tube worms on wood hulls
overloading - either cargo or icing, and displacement exceeding the plimsoll line
intentional sinking (scuttling)

to form an artificial reef
for wreck diving
use as a target ship for training or testing weapons
as a blockship to create an obstacle to close a harbour, river, etc. against enemy ships
to prevent a ship from falling into an enemy's hands (e.g. Admiral Graf Spee)
to destroy a derelict ship that poses a menace to navigation
as part of an insurance scam

Design and equipment failure

One of the best known examples of a shipwreck due to poor design is the capsize of Swedish warship Vasa in Stockholm harbour 1628. She was unstable, with insufficient beam for her weight distribution and her lower gun deck had too low free-board for good seaworthiness. Poor design allowed the ferry MS Herald of Free Enterprise to put to sea with open roll-on/roll-off bow doors, with tragic consequences. Failure or leaking of the hull is a serious problem that can lead to the loss of buoyancy or loss of stability due to the free surface effect and the subsequent sinking or capsize of the vessel. Even the hulls of large modern ships have cracked in heavy . Leaks between the hull planks of wooden vessels are a particular problem.

Equipment failure caused the shipwreck of cruiseferry Estonia in 1994. The stress of stormy seas on the hull and especially the bow caused the bow visor to break off, in turn tearing the watertight bow door open and letting seawater flow onto the car deck. She capsized with tragic consequences. Failure of pumps can lead to the loss of a potentially salvageable ship with only a minor leak or fire.

Failure of the means of propulsion, such as , or rigging, can lead to the loss of a ship. When the ship's movement is determined only by currents or the wind and particularly by storms, a common result is that the ship is unable to avoid natural hazards like rocks, shallow water or . Loss of propulsion or steering can inhibit a ship's ability to safely position itself in a storm, even far from land. Waves attacking a ship's side can overwhelm and sink it.

Instability and foundering

Instability is caused by the centre of mass of the ship rising above the metacenter resulting in the ship tipping on its side or capsize. To remain buoyant, the hull of a vessel must prevent water entering the large air spaces of the vessel (known as downflooding). Clearly for the ship to float, the normally submerged parts of the hull will be watertight, but the upper parts of the hull must have openings to allow ventilation to compartments, including the engine room, for crew access, and to load and unload cargo. In a swamping by waves or capsize water can enter these openings if not watertight. If a ship sinks after capsizing, or as a consequence of a being overwhelmed by waves, a leak in the hull, or other water ingress, it may be described as having foundered or foundering.

Palmer Joseph (1975). 035608258X, Mcdonald and Jane's. 035608258X

Large ships are designed with compartments to help preserve the necessary buoyancy.

Bad weather

On 25 October 2012, the tall ship Bounty (a replica of the original HMS Bounty) sank in a hurricane. The vessel left New London, Connecticut, heading for St. Petersburg, Florida, initially going on an easterly course to avoid Hurricane Sandy. On 29 October 2012 at 03:54 EDT, the ship's owner called the United States Coast Guard for help during the hurricane after losing contact with the ship's master. He reported she was taking on water off the coast of North Carolina, about from the storm, and the crew were preparing to abandon ship. There were sixteen people aboard, two of whom did not survive the sinking. An inquiry into the sinking was held by the United States Coast Guard in Portsmouth, Virginia, from 12 to 21 February 2013; at which it was concluded that Captain Walbridge's decision to sail the ship into the path of Hurricane Sandy was the cause, and the inquiry found this to have been a "reckless decision".

Poor weather can cause several problems:

high winds
low visibility
cold weather
high waves

Wind causes waves which result in other difficulties. Waves make navigation difficult and dangerous near shallow water. Also, waves create buoyancy stresses on the structure of a hull. The weight of breaking waves on the fabric of the ship force the crew to reduce speed or even travel in the same direction as the waves to prevent damage. Also, wind stresses the rigging of sailing ships.

The force of the wind pushes ships in the direction of the wind. Vessels with large windage suffer most. Although powered ships are able to resist the force of the wind, sailing vessels have few defences against strong wind. When strong winds are imminent, sailing vessels typically have several choices:

try to position themselves so that they cannot be blown into danger
shelter in a harbour
anchor, preferably on the leeward side of a landform

Many losses of sailing ships were caused by sailing, with a following wind, so far into a bay that the ship became trapped upwind of a lee shore, being unable to sail into the wind to leave the bay. Low visibility caused by fog, mist and heavy rain increase the navigator's problems. Cold can cause metal to become brittle and fail more easily. A build-up of ice can cause instability by accumulating high on the ship, or in severe cases, crush the hull if the ship becomes trapped in a freezing sea.

Rogue waves

According to one scientist who studies , "two large ships sink every week on average, but the cause is never studied to the same detail as an air crash. It simply gets put down to 'bad weather'." Once considered mythical and lacking hard evidence for their existence, rogue waves are now proven to exist and known to be a natural ocean phenomenon. Eyewitness accounts from mariners and damages inflicted on ships have long suggested they occurred; however, their scientific measurement was only positively confirmed following measurements of the "Draupner wave", a rogue wave at the Draupner platform in the North Sea on January 1, 1995, with a maximum wave height of (peak elevation of ). During that event, minor damage was also inflicted on the platform, far above sea level, confirming that the reading was valid. Their existence has also since been confirmed by satellite imagery of the ocean surface.

Fire

Fire can cause the loss of ships in many ways. The most obvious way would be the loss of a wooden ship which is burned until watertight integrity is compromised (e.g. Cospatrick). The detonation of cargo or ammunition can cause the breach of a steel hull. An extreme temperature may compromise the durability properties of steel, causing the hull to break on its own weight. Often a large fire causes a ship to be abandoned and left to drift (e.g. MS Achille Lauro). Should it run aground beyond economic salvage, it becomes a wreck.

In extreme cases, where the ship's cargo is either highly combustible (such as oil, natural gas or gasoline) or explosive (, , ammunition) a fire onboard may result in a catastrophic conflagration or explosion. Such disasters may have catastrophic results, especially if the disaster occurs in a harbour, such as the Halifax Explosion.

Navigation errors

Many shipwrecks have occurred when the crew of the ship allowed the ship to collide with rocks, , , or other ships. Collision has been one of the major causes of shipwreck. Accurate navigation is made more difficult by poor visibility in bad weather. Also, many losses happened before modern navigation aids such as GPS, radar and sonar were available. Until the 20th century, the most sophisticated navigational tools and techniques available - dead reckoning using the magnetic compass, marine chronometer (to calculate longitude) and ships logbook (which recorded the vessel's heading and the speed measured by Chip log) or celestial navigation using marine chronometer and sextant - were sufficiently accurate for journeys across oceans, but these techniques (and in many cases also the charts) lacked the precision to avoid reefs close to shore.

The Scilly naval disaster of 1707, which claimed nearly 2,000 lives and was one of the greatest maritime disasters in the history of the British Isles, is attributed to the mariner's inability to find their longitude. This led to the Longitude Act to improve the aids available for navigation. Marine chronometers were as revolutionary in the 19th century as GPS is today. However the cost of these instruments could be prohibitive, sometimes resulting in tragic consequences for ships that were still unable to determine their longitude, as in the case of the Arniston.

Even today, when highly accurate navigational equipment is readily available and universally used, there is still scope for error. Using the incorrect horizontal datum for the chart of an area may mislead the navigator, especially as many charts have not been updated to use GPS. It is also important for the navigator to appreciate that charts may be significantly in error, especially on less frequented coasts. For example, a recent revision of the map of South Georgia in the South Atlantic showed that previous maps were in some places in error by several kilometres.

Over the centuries, many technological and organizational developments have been used to reduce accidents at sea including:

International Regulations for Preventing Collisions at Sea
Pilotage aids including and
Basic navigation tools such as the magnetic compass, nautical chart, marine chronometer, sextant, log and sounding line
Advanced navigation tools such as radio communication, radar navigation, gyrocompass, sonar, hyperbolic Radio navigation and satellite navigation
Inspection of shipbuilding quality and maintenance of seaworthiness of the ship such as "A1 at Lloyd's"
Intelligence and better defences to protect the ship from acts of violence, war and piracy
Use of fireproof/nonflammable materials to prevent fires from spreading rapidly, and modern fire-fighting agents such as gases and foams that do not compromise the buoyancy and stability of the vessel as quickly as water.
Built-in devices to delay flooding long enough for rescue ships to retrieve survivors and/or tow the ship to the nearest shipyard for repairs, such as watertight compartments and pumps.

Shipwrecking

( Nautical Terminology )

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Shipwrecking ( Nautical Terminology )

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Shipwrecking

( Nautical Terminology )