Tunnel warfare is a general name for war being conducted in tunnels and other underground cavities. It often includes the construction of underground facilities (mining or undermining) in order to attack or defend, and the use of existing natural caves and artificial underground facilities for military purposes. Tunnels can be used to undermine fortifications and slip into enemy territory for a surprise attack, while it can strengthen a defence by creating the possibility of ambush, counterattack and the ability to transfer troops from one portion of the battleground to another unseen and protected. Also, tunnels can serve as shelter for combatants and non-combatants from enemy attack.
Since antiquity, sappers have used mining against a walled city, fortress, castle or other strongly held and fortified military position. Defenders have dug counter mines to attack miners or destroy a mine threatening their fortifications. Since tunnels are commonplace in urban areas, tunnel warfare is often a feature, though usually a minor one, of urban warfare. A good example of this was seen in the Syrian Civil War in Aleppo, where in March of 2015 rebels planted a large amount of explosives under the Syrian Air Force Intelligence Directorate headquarters.
Tunnels are narrow and restrict fields of fire; thus troops in a tunnel usually have only a few areas exposed to fire or sight at any one time. They can be part of an extensive labyrinth and have cul-de-sacs and reduced lighting, typically creating a closed-in night combat environment.
The Aetolians ... offered a gallant resistance to the assault of the siege artillery and [the Romans], therefore, in despair had recourse to mines and tunnels. Having safely secured the central one of their three works, and carefully concealed the shaft with wattle screens, they erected in front of it a covered walk or stoa about two hundred feet long, parallel with the wall; and beginning digging from that, they carried it on unceasingly day and night, working in relays. For a considerable number of days the besieged did not discover them carrying the earth away through the shaft; but when the heap of earth thus brought out became too high to be concealed from those inside the city, the commanders of the besieged garrison set to work vigorously digging a trench inside, parallel to the wall and to the stoa which faced the towers. When the trench was made to the required depth, they next placed in a row along the side of the trench nearest the wall a number of brazen vessels made very thin; and, as they walked along the bottom of the trench past these, they listened for the noise of the digging outside. Having marked the spot indicated by any of these brazen vessels, which were extraordinarily sensitive and vibrated to the sound outside, they began digging from within, at right angles to the trench, another tunnel leading under the wall, so calculated as to exactly hit the enemy's tunnel. This was soon accomplished, for the Romans had not only brought their mine up to the wall, but had under-pinned a considerable length of it on either side of their mine; and thus the two parties found themselves face to face.
Another extraordinary use of siege-mining in ancient Greece was during Philip V of Macedon's siege of the little town of Prinassos, according to Polybius, "the ground around the town were extremely rocky and hard, making any siege-mining virtually impossible. However, Philip ordered his soldiers during the cover of night collect earth from elsewhere and throw it all down at the fake tunnel's entrance, making it look like the Macedonians were almost finished completing the tunnels. Eventually, when Philip V announced that large parts of the town-walls were undermined, the citizens surrendered without delay."
The oldest known sources about employing tunnels and trenches for guerrilla-like warfare are Roman. After the Revolt of the Batavi the insurgent tribes soon started to change defence from only local strongholds into utilising the advantage of wider terrain. Hidden trenches to assemble for surprise attacks were dug, connected via tunnels for secure fallback. In action often barriers were used to prevent the enemy from pursuing.
Roman legions entering the country soon learned to fear this warfare, as the ambushing of marching columns caused high casualties. Therefore, they approached possibly fortified areas very carefully, giving time to evaluate, assemble troops and organize them. When the Romans were themselves on the defensive the large underground aqueduct system was utilised in the defence of Rome, as well as to evacuate fleeing leaders.
The use of tunnels as a means of guerrilla-like warfare against the Roman Empire was also a common practice of the Jewish rebels in Judea during the Bar Kokhba revolt (132-136 AD). With time the Romans understood that efforts should be made to expose these tunnels. Once an entrance was discovered fire was lit, either smoking out the rebels or suffocating them to death.
Mining was a siege method used in ancient China from at least the Warring States (481-221 BC) period forward. When enemies attempted to dig tunnels under walls for mining or entry into the city, the defenders used large bellows (the type the Chinese commonly used in heating up the blast furnace for smelting cast iron) to pump smoke into the tunnels in order to suffocate the intruders.
In warfare during the Middle Ages, a "mine" was a tunnel dug to bring down castles and other fortifications. Attackers used this technique when the fortification was not built on solid rock, developing it as a response to stone-built castles that could not be burned like earlier-style wooden forts. A tunnel would be excavated under the outer defenses either to provide access into the fortification or to collapse the walls. These tunnels would normally be supported by temporary wooden props as the digging progressed. Once the excavation was complete, the attackers would collapse the wall or tower being undermined by filling the excavation with combustible material that, when lit, would burn away the props leaving the structure above unsupported and thus liable to collapse. Later, explosives like gunpowder were used for even greater effect.
A tactic related to mining is sapping the wall, where engineers would dig at the base of a wall with crowbars and picks. Peter of les Vaux-de-Cernay recounts how at the battle of Carcassonne, during the Albigensian Crusade, "after the top of the wall had been somewhat weakened by bombardment from petraries, our engineers succeeded with great difficulty in bringing a four-wheeled wagon, covered in oxhides, close to the wall, from which they set to work to sap the wall".
As in the siege of Carcassonne, defenders worked to prevent sapping by dumping anything they had down on attackers who tried to dig under the wall. Successful sapping usually ended the battle, since the defenders would no longer be able to defend their position and would surrender, or the attackers could enter the fortification and engage the defenders in close combat.
Several methods resisted or countered undermining. Often the siting of a castle could make mining difficult. The walls of a castle could be constructed either on solid rock or on sandy or water-logged land, making it difficult to dig mines. A very deep ditch or moat could be constructed in front of the walls, as was done at Pembroke Castle, or even artificial lakes, as was done at Kenilworth Castle. This makes it more difficult to dig a mine, and even if a breach is made, the ditch or moat makes exploiting the breach difficult.
Defenders could also dig counter mines. From these they could then dig into the attackers' tunnels and sortie into them to either kill the miners or to set fire to the pit-props to collapse the attackers' tunnel. Alternatively they could under-mine the attackers' tunnels and create a camouflet to collapse the attackers' tunnels. Finally if the walls were breached, they could either place obstacles in the breach, for example a cheval de frise to hinder a forlorn hope, or construct a coupure. The great concentric ringed fortresses, like Beaumaris Castle on Anglesey, were designed so that the inner walls were ready-built coupures: if an attacker succeeded in breaching the outer walls, he would enter a killing field between the lower outer walls and the higher inner walls.
Increased firepower that came with the use of gunpowder, cordite and dynamite made above ground fortifications very expensive if they should withstand any attack. Fortifications were covered with earth and finally they were built totally underground to protect crews and ammunition. For the purpose of firing, artillery and machine gun emplacements had loopholes.
Such a tunnel fortress was difficult to enter and inside there was no room for the attackers to hide from gunfire and explosives. On the other hand, poison gas proved to have a devastating effect.
In trench warfare with heavily fortified strongholds, the tactic of digging and mining the enemy positions was used in the American Civil War during the Siege of Petersburg and the Russo-Japanese War during the Siege of Port Arthur. Extensive mining warfare was conducted by German, French, British and Australian troops on the Western Front during World War I, where the largely static frontlines created favourable conditions for mining.
The largest mining operations were conducted in the Battle of Messines, where specialist Royal Engineer tunnelling companies placed 22 mines under German lines. 19 were eventually exploded, killing about 10,000 German soldiers. Underground attacks especially broke the morale of the enemy if he was surprised in his secure positions. However, the huge craters that are the results of mining enemy positions could be obstacles during an advance, as was found at Petersburg Battle of the Crater and the Somme. Tunnels built to secure frontline supply were built in several places on the Western Front.
On the Eastern Front, the successful Brusilov Offensive employed tunnel/trenches to allow the Russian troops to start the initial assault very close to the Austrian trenches. During World War II, the rapid transit systems that existed in many cities became another military consideration.
North Korea, it has been claimed[by whom?], has prepared several transport tunnels with a capacity 10,000 troops per hour for a possible invasion of South Korea. This melds the defensive tunnel warfare with mobile warfare.
The term tunnel war or tunnel warfare () was first used for the guerrilla tactic employed by the Chinese in the Second Sino-Japanese War. The tunnel systems were fast and easy to construct and enabled a small force to successfully fight superior enemies.
A major change took place in the art of tunnel warfare in the 15th century in Italy with the development of gunpowder to undermine enemy fortifications.
Many fortresses built counter mine galleries, "hearing tunnels" which were used to listen for enemy mines being built. At a distance of about fifty yards they could be used to detect tunnelling.
The Moscow Kremlin had such tunnels.
Since the 16th century during assault on enemy positions saps, dug by sappers, began to be used.
The Austrian general of Italian origin Raimondo Montecuccoli (1609-1680) in his classic work on military affairs described methods of destruction and countering of enemy saps. In his paper on "the assaulting of fortresses" Vauban (1633-1707) the creator of the French School of Fortification gave a theory of mine attack and how to calculate various saps and the amount of gunpowder needed for explosions.
As early as 1840 Eduard Totleben and Schilder-Schuldner had been engaged on questions of organisation and conduct of underground attacks. They began to use electric current to disrupt charges. Special boring instruments of complex design were developed.
In the Siege of Sevastopol (1854-1855) underground fighting became immense. At first the allies began digging saps without any precautions. After a series of explosions caused by counter mine action the allies increased the depth of the tunnels but began to meet rocky ground and the underground war had to return to higher levels. During the siege Russian sappers dug 6.8 kilometres of saps and counter mines. During the same period the allies dug 1.3 kilometres. The Russians expended 12 tons of gunpowder in the underground war while the allies used 64 tons. These figures show that the Russians tried to create a more extensive network of tunnels and carried out better targeted attacks with only minimal use of gunpowder. The allies used outdated fuses so that many charges failed to go off. Conditions in the tunnels were severe: wax candles often went out, sappers fainted due to stale air, ground water flooded tunnels and counter mines. The Russians repulsed the siege and started to dig tunnels under the allies fortifications. The Russian success in the underground war was recognised by the allies. The Times noted that the laurels for this kind of warfare must go to the Russians.
In 1864, during the Siege of Petersburg by the Union Army of the Potomac, a mine made of 8,000 pounds (3,600 kg) of gunpowder was set off approximately 20 feet (6 m) under Maj. Gen. Ambrose E. Burnside's IX Corps sector. The explosion blew a gap in the Confederate defenses of Petersburg, Virginia, creating a crater 170 feet (52 m) long, 100 to 120 feet (30 to 37 m) wide, and at least 30 feet (9 m) deep. The combat was accordingly known as the Battle of the Crater. From this propitious beginning, everything deteriorated rapidly for the Union attackers. Unit after unit charged into and around the crater, where soldiers milled in confusion. The Confederates quickly recovered and launched several counterattacks led by Brig. Gen. William Mahone. The breach was sealed off, and Union forces were repulsed with severe casualties. The horror of this engagement was portrayed in the Charles Frazier novel, and subsequent Anthony Minghella movie, Cold Mountain.
During the Siege of Vicksburg, in 1863, Union troops led by General Ulysses S. Grant tunnelled under the Confederate trenches and detonated a mine beneath the 3rd Louisiana Redan on June 25, 1863. The subsequent assault, led by General John A. Logan, gained a foothold in the Confederate trenches where the crater was formed, but the attackers were eventually forced to withdraw.
Mining saw a brief resurgence as a military tactic during the First World War, when army engineers attempted to break the stalemate of trench warfare by tunneling under no man's land and laying large quantities of explosives beneath the enemy's trenches. As in siege warfare, tunnel warfare was possible due to the static nature of the fighting.
On the Italian Front, the high peaks of the Dolomites range were an area of fierce mountain warfare and mining operations. In order to protect their soldiers from enemy fire and the hostile alpine environment, both Austro-Hungarian and Italian military engineers constructed fighting tunnels which offered a degree of cover and allowed better logistics support. In addition to building underground shelters and covered supply routes for their soldiers, both sides also attempted to break the stalemate of trench warfare by tunneling under no man's land and placing explosive charges beneath the enemy's positions. Their efforts in high mountain peaks such as Col di Lana, Lagazuoi and Marmolata were portrayed in fiction in Luis Trenker's Mountains on Fire film of 1931.
On the Western Front, the main objective of tunnel warfare was to place large quantities of explosives beneath enemy defensive positions. When it was detonated, the explosion would destroy that section of the trench. The infantry would then advance towards the enemy front-line hoping to take advantage of the confusion that followed the explosion of an underground mine. It could take as long as a year to dig a tunnel and place a mine. As well as digging their own tunnels, the military engineers had to listen out for enemy tunnellers. On occasions miners accidentally dug into the opposing side's tunnel and an underground fight took place. When an enemy's tunnel was found it was usually destroyed by placing an explosive charge inside.
During the height of the underground war on the Western Front in June 1916, British tunnellers fired 101 mines or camouflets, while German tunnellers fired 126 mines or camouflets. This amounts to a total of 227 mine explosions in one month - one detonation every three hours. Large battles, like the Battle of the Somme in 1916 (see mines on the Somme) and the Battle of Vimy Ridge in 1917, were also supported by mine explosions.
Well known examples are the mines on the Italian Front laid by Austro-Hungarian and Italian miners, where the largest individual mine contained a charge of 110,000 pounds (50,000 kg) of blasting gelatin, and the activities of the Tunnelling companies of the Royal Engineers on the Western Front. At the beginning of the Somme offensive, the British simultaneously detonated 19 mines of varying sizes beneath the German positions, including two mines that contained 40,000 pounds (18,000 kg) of explosives.
In January 1917, General Plumer gave orders for over 20 mines to be placed under German lines at Messines. Over the next five months more than 8,000 metres of tunnel were dug and 450-600 tons of explosive were placed in position. Simultaneous explosion of the mines took place at 3.10 a.m. on 7 June 1917. The blast killed an estimated 10,000 soldiers and was so loud it was heard in London. The near simultaneous explosions created large craters and ranks among the largest non-nuclear explosions of all time. Two mines were not ignited in 1917 because they had been abandoned before the battle, and four were outside the area of the offensive. On 17 July 1955, a lightning strike set off one of these four latter mines. There were no human casualties, but one cow was killed. Another of the unused mines is believed to have been found in a location beneath a farmhouse, but no attempt has been made to remove it. The last mine fired by the British in World War I was near Givenchy on 10 August 1917, after which the tunnelling companies of the Royal Engineers concentrated on constructing deep dugouts for troop accommodation.
The largest single mines at Messines were at St Eloi, which was charged with 95,600 pounds (43,400 kg) of ammonal, at Maedelstede Farm, which was charged with 94,000 pounds (43,000 kg), and beneath German lines at Spanbroekmolen, which was charged with 91,000 pounds (41,000 kg) of ammonal. The Spanbroekmolen mine created a crater that afterwards measured 430 ft. from rim to rim. Now known as the Pool of Peace, it is large enough to house a 40 ft. deep lake.
|Belgium||West Flanders||Ypres: Hooge||area of sustained fighting between British and German tunneling units 1915-1917; see Hooge in World War I|
|Belgium||West Flanders||Ypres: Hill 60||area of sustained fighting between British and German tunneling units 1915-1917; also see Mines in the Battle of Messines (1917)|
|Belgium||West Flanders||Ypres: St Eloi||area of sustained fighting between British and German tunneling units 1915-1917; also see The Bluff and Mines in the Battle of Messines (1917)|
|Belgium||West Flanders||Heuvelland: Wytschaete||fighting between British and German tunneling units, mainly in connection with the Mines in the Battle of Messines (1917)|
|Belgium||West Flanders||Messines Ridge||area of sustained fighting between British and German tunneling units, also see Mines in the Battle of Messines (1917)|
|France||Nord||Armentières||area of sustained fighting between British and German tunneling units|
|France||Nord||Aubers Ridge||fighting between British and German tunneling units, mainly in connection with the Battle of Aubers Ridge|
|France||Pas-de-Calais||Givenchy-lès-la-Bassée||area of sustained fighting between British and German tunneling units, area where William Hackett VC was killed|
|France||Pas-de-Calais||Cuinchy||fighting between British and German tunneling units|
|France||Pas-de-Calais||Loos-en-Gohelle||area of sustained fighting between British and German tunneling units|
|France||Pas-de-Calais||Givenchy-en-Gohelle||area of sustained fighting between British and German tunneling units, also in connection with the Battle of Vimy Ridge (1917)|
|France||Pas-de-Calais||Vimy Ridge||Between October 1915 and April 1917 an estimated 150 French, British and German charges were fired in this 7 kilometres (4.3 mi) sector of the Western Front. British tunnellers took over progressively from the French between February and May 1916. After September 1916, when the Royal Engineers had constructed defensive galleries along most of the front line, offensive mining largely ceased although activities continued through the Battle of Vimy Ridge (1917). The British gallery network beneath Vimy Ridge grew to a length of 12 kilometres (7.5 mi). Before the Battle of Vimy Ridge, the British tunnelling companies secretly laid a series of explosive charges under German positions in an effort to destroy surface fortifications before the assault. The original plan had called for 17 mines and 9 Wombat charges to support the infantry attack, of which 13 (possibly 14) mines and 8 Wombat charges were eventually laid.|
|France||Pas-de-Calais||Arras||fighting between British and German tunneling units, mainly in connection with the Battle of Arras (1917); also see Carrière Wellington|
|France||Somme||Beaumont-Hamel: Hawthorn Ridge||fighting between British and German tunneling units, mainly in connection with the Battle of the Somme (1916); for details, see Mines on the first day of the Somme|
|France||Somme||La Boisselle||area of sustained fighting between British and German tunneling units, major sites of underground warfare were Schwabenhöhe/Lochnagar, the Y Sap mine and the L'îlot/Granathof/Glory Hole site; for details, see Mines on the first day of the Somme|
|France||Somme||Fricourt||fighting between British and German tunneling units, mainly in connection with the Battle of the Somme (1916); for details, see Mines on the first day of the Somme|
|France||Somme||Mametz||fighting between British and German tunneling units, mainly in connection with the Battle of the Somme (1916); for details, see Mines on the first day of the Somme|
|France||Somme||Dompierre||fighting between French and German tunneling units|
|France||Oise||Tracy-le-Val: Bois St Mard||fighting between French and German tunneling units|
|France||Aisne||Berry-au-Bac||fighting between French and German tunneling units|
|France||Marne||Perthes-lès-Hurlus||fighting between French and German tunneling units|
|France||Marne||Aubérive: Butte de Tahure||fighting between British and German tunneling units, mainly in connection with the Battle of the Hills (1917)|
|France||Marne||Massiges: Main de Massiges||fighting between French and German tunneling units|
|France||Meuse||Forest of Argonne: La Fille Morte||fighting between French and German tunneling units|
|France||Meuse||Forest of Argonne: Bolante||fighting between French and German tunneling units|
|France||Meuse||Vauquois: Butte de Vauquois||area of sustained fighting, also in connection with the Battle of Verdun (1916). From 1915 to 1918, French and German tunneling units fired 519 separate mines at Vauquois, and the German gallery network beneath the hill grew to a length of 17 kilometres (11 mi).|
|France||Meuse||Vaux-lès-Palameix: Bois des Chevaliers||fighting between French and German tunneling units|
|France||Meurthe-et-Moselle||Reillon||fighting between French and German tunneling units|
|France||Haut-Rhin||Bernwiller: Ammerzwiller||fighting between French and German tunneling units|
The Ranzhuang tunnel evolved in the course of resisting Japanese's mopping-up operations in the central Chinese Hebei province. During the Second Sino-Japanese war, the Chinese Communist forces or local peasant resistance used tunnel war tactics against the Japanese (and later Kuomintang during Chinese Civil War). The tunnels were dug beneath the earth to cover the battlefield with numerous hidden gun holes to make a surprise attack. Entrances usually were hidden beneath a straw mat inside a house, or down a well. This allowed flexible manoeuver or exit.
The main disadvantage of tunnel war was that usually the Japanese could fill the holes or pour water in to suffocate the soldiers inside the tunnels. This proved to be a major problem but was later solved by installing filters that would consume the water and poisonous gases. It is said that there were even women and children who voluntarily fought in the tunnels.
After the war, the Ranzhuang tunnel site became a key heritage preservation unit promoting patriotism and national defense education. It attracted tens of thousands of visitors each year. Most of the villagers were working in tourism service industry, an industry worth US$700,000 each year.
The first to copy tunnel warfare were the Japanese themselves. In the battles of the Western Pacific, they would maximize their capabilities by establishing a strong point defense, utilizing cave warfare. The first encounter of the US Marines with this new tactic was the island of Peleliu. The invading marines suffered twice as many casualties as on Tarawa, where the old Japanese tactic of defending the beach had been employed. The pinnacle of this form of defense, however, can be found on Iwo Jima, where the Japanese engineered the whole Mount Suribachi with many tunnels leading to defensive emplacements, or exits for quick counterattacks. Tunnel warfare by the Japanese forced the US Marines to adopt the "blowtorch and corkscrew" tactics to systematically flush out the Japanese defenders, one cave at a time.
On the Korean Peninsula the underground war reached a massive scale. From experience in the Second World War the US relied upon aviation. North Korean forces suffered heavy losses from air strikes which obliged them to construct underground shelters. Initially underground fortifications were built independently by individual units and their placement was chaotic. Subsequently underground fortifications were united into a single system. The extent of the underground war is attested to by the following facts. The length of the front was 250 kilometres while the length of tunnels was 500 kilometres. So for every kilometre of front there were two kilometres of tunnels. A total of 2,000,000 cubic metres of rock were extracted.
North Korea developed a theory of underground warfare. Manpower, warehouses and small calibre guns were completely housed underground making them less vulnerable to air strikes and artillery. On the surface the many false targets (bunkers, trenches and decoy entrances to the tunnel system) made it difficult to detect true targets forcing US forces to waste ammunition. Directly under the surface spacious barracks were built, allowing whole units to be quickly brought to the surface for a short time and as quickly returned to shelter underground.
North Korea even created underground shelters for artillery. During bombing artillery was rolled into bunkers located inside mountains. When a lull came the guns were rolled back out onto a firing area, fired some shells, and rolled back into the bunker again. Unlike other examples of underground warfare North Korean troops did not just remain in the tunnels. North Korean forces were sheltering in the tunnels from the bombing and shelling and awaiting US bayonet attack. When US forces reached the ground in the area of the tunnels, chosen North Korean units would emerge to engage in hand-to-hand combat taking advantage of their numerical superiority.
Currently North Korean strategy is to construct as many underground facilities as possible for military use in the event of a US attack. The depth of underground facilities reaches 80 to 100 metres making them difficult to destroy even with the use of tactical nuclear weapons.
In the Korean War the tactic of tunnel warfare was employed by the Chinese forces themselves. "The Chinese resort to tunnel warfare, and the devastating losses to American soldiers, led to the sealing of tunnel entrances by United Nations Command. According to later prisoner of war interrogations, Chinese officers had killed a number of their own soldiers in the tunnels, because the latter had wished to dig their way out and surrender to the United Nations Command."
To maintain a full scale guerrilla war in Southern Vietnam, camouflaged bases were used capable of supplying the guerillas for a long period of time. Throughout Southern Vietnam there were secret underground bases that operated successfully. There are reports that every villager was obliged to dig 90 centimetres of tunnel a day. The largest underground base was the tunnels of Cu Chi with overall length of 200 miles. To combat the guerillas in the tunnels the US used special forces-tunnel rats.
When Vietnam became a French colony again after the Second World War, the Communistic Vietminh started to dig tunnels close to Saigon. After the French army left (they were defeated at Dien Bien Phu) the tunnels were maintained in case the plausible war with South-Vietnam would start. Ho Chi Minh, leader of North-Vietnam, ordered to expand the tunnels after the Americans entered the war between the North and the South; the tunnels would be used by the Viet Cong. Systems of tunnels were not occupied temporarily for military purpose, but began to contain whole villages of people living permanently underground. The tunnels were a complete underworld, it was all there; kitchens, hospitals, workshops, sleeping areas, communications, ammunition storage, even some entertainment. The tunnels eventually became a target for American forces because the enemy could hide in it and strike everywhere in the range of the tunnel complex (hundreds of miles) without a single warning and then disappear again.
These tactics were also applied against the Chinese during the Sino-Vietnamese War.
An underground war was actively pursued in the Afghan War. Water pipes extend under the entire Afghan territory. In wartime, Afghans have used these tunnels to hide and also to appear suddenly in the enemies rear. To clear these tunnels Soviet troops used explosives and gasoline. The most famous underground base of the Mujahideen and then the Taliban was Tora Bora - this tunnel system went to a depth of 400 meters and had a length of 25 kilometers. To combat guerillas in tunnels both the Soviet Union and the United States have created special forces.
Between May 1992 and November 1995, during the Siege of Sarajevo in the Bosnian War the Bosnian Army built the Sarajevo Tunnel in order to link the city of Sarajevo, which was entirely cut off by Serbian forces, with the Bosnian-held territory on the other side of the Sarajevo Airport, an area controlled by the United Nations. The tunnel linked the Sarajevo neighbourhoods of Dobrinja and Butmir, allowing food, war supplies, and humanitarian aid to come into the city, and people to get out. The tunnel was one of the major ways of bypassing the international arms embargo and providing the city defenders with weaponry.
In 2017 the Barrier against tunnels along the Israel-Gaza Strip border began to be built. On October 30 an attack tunnel was located within Israeli borders and was detonated. 
In July 2006, a group of Hezbollah fighters crossed from southern Lebanon into northern Israel killing three Israeli soldiers and abducting two, which started the Lebanese-Israeli war. Faced with Israeli's air attacks, Hezbollah needed to create a defensive system that would enable these rocket attacks to continue uninterrupted throughout any conflict with Israel. To do so they created an intricate system of tunnels and underground bunkers, anti-tank units, and explosive-ridden areas.
Hezbollah built a sophisticated network of tunnels with North Korean assistance, with close resemblance to North Korea's own network of tunnels in the demilitarized zone separating the two Koreas. The underground network included twenty-five kilometer tunnels, bunkers, fiber optics communication systems, and storerooms to hold missiles and ammunition. Its capabilities were extended by Iranian supply of advanced weaponry and in-depth training of Hezbollah fighters. Between December 2018 and January 2019, the Israeli military destroyed six tunnels built by Hezbollah along Israel's border during Operation Northern Shield.
During the Syrian civil war, rebel groups like the Islamic Front, Al-Nusra and ISIS have dug tunnels and used explosives to attack fixed military positions of the Syrian Armed Forces and allied militias. A notable example is the attack on the Air Force Intelligence Building in Aleppo where on 4 March 2015, rebel forces detonated a large quantity of explosives in a tunnel dug close to or under the building. The building suffered a partial collapse as a result of the explosion which was immediately followed by an armed rebel assault.
Many of the famous war tunnels were later turned into tourist site due to their historic significance in wars. For example, Sarajevo Tunnel is now converted into a war museum, with 20 meters of the original tunnel open for tourists visit. Hebei Ranzhuang tunnel is also a famous war tourism site in China.