Early use '' Naval mines were first invented by Chinese innovators of
Imperial China and were described in thorough detail by the early
Ming dynasty artillery officer
Jiao Yu, in his 14th-century military treatise known as the
Huolongjing.
Chinese records tell of naval explosives in the 16th century, used to fight against Japanese pirates (
wokou). This kind of naval mine was loaded in a wooden box, sealed with
putty. General
Qi Jiguang made several timed, drifting explosives, to harass Japanese pirate ships. The
Tiangong Kaiwu (
The Exploitation of the Works of Nature) treatise, written by
Song Yingxing in 1637, describes naval mines with a ripcord pulled by hidden ambushers located on the nearby shore which rotated a steel wheel flint mechanism to produce sparks and ignite the fuze of the naval mine. The first plan for a sea mine in the West was by Ralph Rabbards, who presented his design to Queen
Elizabeth I of England in 1574. The Dutch inventor
Cornelius Drebbel was employed in the Office of Ordnance by
King Charles I of England to make weapons, including the failed "floating petard". Weapons of this type were apparently tried by the English at the
Siege of La Rochelle in 1627. mines destroying a British ship in 1777 American
David Bushnell developed the first American naval mine, for use against the British in the
American War of Independence. It was a watertight keg filled with
gunpowder that was floated toward the enemy, detonated by a sparking mechanism if it struck a ship. It was used on the
Delaware River as a drift mine, destroying a small boat near its intended target, a British warship.
The 19th century in 1861 during the
American Civil War, sketch by
Alfred Waud The 1804
Raid on Boulogne made extensive use of explosive devices designed by inventor
Robert Fulton. The 'torpedo-catamaran' was a coffer-like device balanced on two wooden floats and steered by a man with a paddle. Weighted with lead so as to ride low in the water, the operator was further disguised by wearing dark clothes and a black cap. His task was to approach the French ship, hook the torpedo to the anchor cable and, having activated the device by removing a pin, remove the paddles and escape before the torpedo detonated. Also to be deployed were large numbers of casks filled with gunpowder, ballast and combustible balls. They would float in on the tide and on washing up against an enemy's hull, explode. In 1854, during the unsuccessful attempt of the Anglo-French (101 warships) fleet to seize the
Kronstadt fortress, British steamships (9 June 1855, the first successful mining in Western history), and HMS
Firefly suffered damage due to the underwater explosions of Russian naval mines. Russian naval specialists set more than 1,500 naval mines, or
infernal machines, designed by
Moritz von Jacobi and by
Immanuel Nobel, in the
Gulf of Finland during the
Crimean War of 1853–1856. The mining of
Vulcan led to the world's first
minesweeping operation. During the next 72 hours, 33 mines were swept. The
Jacobi mine was designed by German-born, Russian engineer Jacobi, in 1853. The mine was tied to the sea bottom by an anchor. A cable connected it to a
galvanic cell which powered it from the shore, the power of its explosive charge was equal to of
black powder. In the summer of 1853, the production of the mine was approved by the Committee for Mines of the
Ministry of War of the Russian Empire. In 1854, 60 Jacobi mines were laid in the vicinity of the Forts Pavel and
Alexander (
Kronstadt), to deter the
British Baltic Fleet from attacking them. It gradually phased out its direct competitor the Nobel mine on the insistence of Admiral
Fyodor Litke. The Nobel mines were bought from Swedish industrialist
Immanuel Nobel who had entered into
collusion with the Russian head of navy
Alexander Sergeyevich Menshikov. Despite their high cost (100
Russian rubles) the Nobel mines proved to be faulty, exploding while being laid, failing to explode or detaching from their wires, and drifting uncontrollably, at least 70 of them were subsequently disarmed by the British. In 1855, 301 more Jacobi mines were laid around Krostadt and
Lisy Nos. British ships did not dare to approach them. In the 19th century, mines were called
torpedoes, a name probably conferred by
Robert Fulton after the
torpedo fish, which gives powerful
electric shocks. A
spar torpedo was a mine attached to a long pole and detonated when the ship carrying it rammed another one and withdrew a safe distance. The submarine used one to sink on 17 February 1864. A Harvey torpedo was a type of floating mine towed alongside a ship and was briefly in service in the
Royal Navy in the 1870s. Other "torpedoes" were attached to ships or propelled themselves. One such weapon called the
Whitehead torpedo after its inventor, caused the word "torpedo" to apply to self-propelled underwater missiles as well as to static devices. These mobile devices were also known as "fish torpedoes". The
American Civil War of 1861–1865 also saw the successful use of mines. The first ship sunk by a mine, , foundered in 1862 in the
Yazoo River.
Rear Admiral David Farragut's famous command during the
Battle of Mobile Bay in 1864, "
Damn the torpedoes, full speed ahead!" refers to a minefield laid at
Mobile, Alabama. After 1865 the United States adopted the mine as its primary weapon for
coastal defense. In the decade following 1868, Major
Henry Larcom Abbot carried out a lengthy set of experiments to design and test moored mines that could be exploded on contact or be detonated at will as enemy shipping passed near them. This initial development of mines in the United States took place under the purview of the
US Army Corps of Engineers, which trained officers and men in their use at the
Engineer School of Application at Willets Point, New York (later named
Fort Totten). In 1901 underwater minefields became the responsibility of the US Army's Artillery Corps, and in 1907 this was a founding responsibility of the
United States Army Coast Artillery Corps. The
Imperial Russian Navy, a pioneer in mine warfare, successfully deployed mines against the
Ottoman Navy during both the Crimean War and the
Russo-Turkish War (1877-1878). During the
War of the Pacific (1879-1883), the
Peruvian Navy, at a time when the Chilean squadron was blockading the Peruvian ports, formed a brigade of torpedo boats under the command of the frigate captain Leopoldo Sánchez Calderón and the Peruvian engineer
Manuel Cuadros, who perfected the naval torpedo or mine system to be electrically activated when the cargo weight was lifted. This system was employed on 3 July 1880, in front of the port of
Callao, when the gunned transport
Loa was sunk while capturing a sloop mined by the Peruvians. A similar fate occurred to the gunboat schooner
Covadonga in front of the port of
Chancay, on 13 September 1880 when a captured pleasure boat exploded while being hoisted on its side. During the
Battle of Tamsui (1884), in the
Keelung Campaign of the
Sino-French War, Chinese forces in Taiwan under
Liu Mingchuan took measures to reinforce
Tamsui against the French; they planted nine torpedo mines in the river and blocked the entrance.
Early 20th century During the
Boxer Rebellion, Imperial Chinese forces deployed a command-detonated mine field at the mouth of the
Hai River before the
Dagu forts, to prevent the western
Allied forces from sending ships to attack. The next major use of mines was during the
Russo-Japanese War of 1904–1905. Two mines blew up when the struck them near
Port Arthur, sending the holed vessel to the bottom and killing the fleet commander, Admiral
Stepan Makarov, and most of his crew in the process. The toll inflicted by mines was not confined to the Russians, however. The
Japanese Navy lost two battleships, four cruisers, two destroyers and a torpedo-boat to offensively laid mines during the war. Most famously, on 15 May 1904, the Russian
minelayer Amur planted a 50-mine minefield off
Port Arthur and succeeded in sinking the Japanese battleships and . Following the end of the Russo-Japanese War, several nations attempted to have mines banned as weapons of war at the
Hague Peace Conference (1907). Beginning around the start of the 20th century, submarine mines played a major role in the defense of US harbours against enemy attacks as part of the
Endicott and Taft Programs. The mines employed were controlled mines, anchored to the bottoms of the harbours, and detonated under control from large mine
casemates onshore. During
World War I, mines were used extensively to defend coasts, coastal shipping, ports and naval bases around the globe. The Germans laid mines in shipping lanes to sink merchant and naval vessels serving Britain. The Allies targeted the German U-boats in the Strait of Dover and the Hebrides. In an attempt to seal up the northern exits of the North Sea, the Allies developed the
North Sea Mine Barrage. During a period of five months from June 1918, almost 70,000 mines were laid spanning the North Sea's northern exits. The total number of mines laid in the North Sea, the British East Coast, Straits of Dover, and Heligoland Bight is estimated at 190,000 and the total number during the whole of WWI was 235,000 sea mines. Clearing the barrage after the war took 82 ships and five months, working around the clock. It was also during World War I, that the British
hospital ship, , became the largest vessel ever sunk by a naval mine. The
Britannic was
the sister ship of the
RMS Titanic, and the .
World War II During
World War II, the
U-boat fleet, which dominated much of the battle of the Atlantic, was small at the beginning of the war and much of the early action by German forces involved mining
convoy routes and ports around Britain. German submarines also operated in the
Mediterranean Sea, in the
Caribbean Sea, and along the US coast. Initially, contact mines (requiring a ship to physically strike a mine to detonate it) were employed, usually tethered at the end of a cable just below the surface of the water. Contact mines usually blew a hole in ships' hulls. By the beginning of World War II, most nations had developed mines that could be dropped from aircraft, some of which floated on the surface, making it possible to lay them in enemy harbours. The use of dredging and nets was effective against this type of mine, but this consumed valuable time and resources and required harbours to be closed. Later, some ships survived mine blasts, limping into port with buckled plates and broken backs. This appeared to be due to a new type of mine, detecting ships by their proximity to the mine (an influence mine) and detonating at a distance, causing damage with the shock wave of the explosion. Ships that had successfully run the gantlet of the Atlantic crossing were sometimes destroyed entering freshly cleared British harbours. More shipping was being lost than could be replaced, and
Churchill ordered the intact recovery of one of these new mines to be of the highest priority. The British experienced a stroke of luck in November 1939, when a German mine was dropped from an aircraft onto the mudflats off
Shoeburyness during low tide. Additionally, the land belonged to the army and a base with men and workshops was at hand. Experts were dispatched from to investigate the mine. The Royal Navy knew that mines could use magnetic sensors, Britain having developed magnetic mines in World War I, so everyone removed all metal, including their buttons, and made tools of non-magnetic
brass. They disarmed the mine and rushed it to the labs at HMS Vernon, where scientists discovered that the mine had a magnetic arming mechanism. A large ferrous object passing through the Earth's
magnetic field will concentrate the field through it, due to its magnetic permeability; the mine's detector was designed to trigger as a ship passed over when the Earth's magnetic field was concentrated in the ship and away from the mine. The mine detected this loss of the magnetic field which caused it to detonate. The mechanism had an adjustable sensitivity, calibrated in
milligauss. fitted with a
DWI, magnetic mine exploder,
Ismailia, Egypt From this data, known methods were used to clear these mines. Early methods included the use of large electromagnets dragged behind ships or below low-flying aircraft (a number of smaller bombers like the
Vickers Wellington were used for this). Both of these methods had the disadvantage of "sweeping" only a small strip. A better solution was found in the "Double-L Sweep" using electrical cables dragged behind ships that passed large pulses of current through the seawater. This created a large magnetic field and swept the entire area between the two ships. The older methods continued to be used in smaller areas. The
Suez Canal continued to be swept by aircraft, for instance. While these methods were useful for clearing mines from local ports, they were of little or no use for enemy-controlled areas. These were typically visited by warships, and the majority of the fleet then underwent a massive
degaussing process, where their hulls had a slight "south" bias induced into them which offset the concentration-effect almost to zero. Initially, major warships and large troopships had a copper
degaussing coil fitted around the perimeter of the hull, energized by the ship's electrical system whenever in suspected magnetic-mined waters. Some of the first to be so fitted were the
carrier and the liners and . It was a photo of one of these liners in New York harbour, showing the degaussing coil, which revealed to German Naval Intelligence the fact that the British were using degaussing methods to combat their magnetic mines. This was felt to be impractical for smaller warships and merchant vessels, mainly because the ships lacked the generating capacity to energise such a coil. It was found that "wiping" a current-carrying cable up and down a ship's hull temporarily canceled the ships' magnetic signature sufficiently to nullify the threat. This started in late 1939, and by 1940 merchant vessels and the smaller British warships were largely immune for a few months at a time until they once again built up a field. The cruiser is just one example of a ship that was struck by a magnetic mine during this time. On 21 November 1939, a mine broke her keel, which damaged her engine and boiler rooms, as well as injuring 46 men, and one later died from his injuries. She was towed to
Rosyth for repairs. Incidents like this resulted in many of the boats that sailed to
Dunkirk being degaussed in a marathon four-day effort by degaussing stations. '' lays naval mines in the
Gulf of Finland during the
Continuation War The Allies and Germany deployed acoustic mines in World War II, against which even wooden-
hulled ships (in particular
minesweepers) remained vulnerable. Japan developed sonic generators to sweep these; the gear was not ready by war's end. and by the end of the Pacific War had cut the amount of freight passing through
Kobe–
Yokohama by 90%. After sweeping for almost a year, in May 1946, the Navy abandoned the effort with 13,000 mines still unswept.
Cold War era in
Dubai, UAE. Since
World War II, mines have damaged 14
United States Navy ships, whereas air and missile attacks have damaged four. During the
Korean War, mines laid by North Korean forces caused 70% of the casualties suffered by US naval vessels and caused 4 sinkings. During the
Iran–Iraq War from 1980 to 1988, the belligerents mined several areas of the
Persian Gulf and nearby waters. On 24 July 1987, the supertanker
SS Bridgeton was mined by Iran near Farsi Island. On 14 April 1988, struck an Iranian mine in the central Persian Gulf
shipping lane, wounding 10 sailors. In the summer of 1984, magnetic sea mines damaged at least 19 ships in the
Red Sea. The US concluded
Libya was probably responsible for the minelaying. In response the US, Britain, France, and three other nations launched
Operation Intense Look, a minesweeping operation in the Red Sea involving more than 46 ships. On the orders of the
Reagan administration, the
CIA mined
Nicaragua's
Sandino port in 1984 in support of the
Contras. A Soviet tanker was among the ships damaged by these mines. In 1986, in the case of
Nicaragua v. United States, the
International Court of Justice ruled that this mining was a violation of international law.
Post Cold War During the
Gulf War,
Iraqi naval mines severely damaged and . The US Navy mined the approaches to the Iraqi port of
Umm Qasr on 17 January 1991. Three
A-6 Intruders from the
aircraft carrier USS Ranger dropped mines on the main channel, amid intense anti-aircraft fire from
ZU-23-2 and Iraqi naval vessels. One of the A-6s was shot down and its two crewmembers were lost. The pilot of one of the surviving A-6s claims he watched three ships disabled by the mines in the area during the last mission of the war. When active hostilities concluded, eight countries conducted clearance operations. In the first month of the
2022 Russian invasion of Ukraine, Ukraine accused Russia of deliberately employing drifting mines in the Black Sea area. Around the same time, Turkish and Romanian military diving teams were involved in defusing operations, when stray mines were spotted near the coasts of these countries.
London P&I Club issued a warning to freight ships in the area, advising them to "maintain lookouts for mines and pay careful attention to local navigation warnings". Ukrainian forces have mined "from the Sea of Azov to the Black Sea which banks the critical city of Odesa." == Types ==