Hedgehog (weapon)

For the area denial weapon, see Czech hedgehog.

Hedgehog anti-submarine weapon
Type Anti-submarine Mortar
Place of origin United Kingdom
Service history
In service 1942–?
Used by Royal Canadian Navy
Production history
Designer Directorate of Miscellaneous Weapons Development
Designed 1942
Shell 65 lb (29 kg)
Calibre 7 in
Barrels 24
Effective firing range 200 to 259 m
Filling 30 lb TNT or 35 lb (16 kg) Torpex

The Hedgehog (also known as an Anti-Submarine Projector) was a forward-throwing anti-submarine weapon that was used during the Battle of the Atlantic in the Second World War. The device, which was developed by the Royal Navy, fired up to 24 spigot mortars ahead of a ship when attacking a U Boat.[1] It was deployed on convoy escort warships such as destroyers and corvettes to supplement the depth charges.

As the mortar projectiles employed contact fuzes rather than time or barometric (depth) fuzes, detonation always occurred directly against the hull of a submarine making it more deadly than depth charges which relied on damage caused by hydrostatic shockwaves. Statistics show that in the Second World War out of 5,174 British depth charge attacks there were 85.5 kills: a ratio of 60.5 to 1. In comparison, the Hedgehog made 268 attacks for 47 kills: a ratio of 5.7 to 1.[2]


The "Hedgehog", so named because the empty rows of its launcher spigots resembled the spines of a hedgehog, was a replacement to the unsuccessful Fairlie Mortar that was trialled aboard HMS Whitehall (D94) in 1941. Although a failure, the Fairlie was designed to fire depth charges ahead of a ship when attacking a submarine. This principle of forward-firing projectiles was considered viable. It was from this, secret research undertaken by the Directorate of Miscellaneous Weapons Development (DMWD) led to the development of the Hedgehog.[3]

The weapon was a multiple 'spigot mortar' or spigot discharger, a type of weapon developed between the wars by Lieutenant Colonel Stewart Blacker, RA. The spigot mortar was based on early infantry trench mortars. The spigot design allowed a single device to fire warheads of varying size. The propelling charge was part of the main weapon and worked against a rod (the spigot) set in the baseplate which fitted inside a tubular tail of the 'bomb'. This principle was first used on the Blacker Bombard 29mm Spigot Mortar and the later PIAT anti-tank weapon.

The adaptation of the bombard for naval use was made in partnership with MIR(c) under Major Millis Jefferis who had taken Blacker's design and brought it into use with Army. The weapon fires a salvo of 24 bombs in an arc, aimed to land in a circular or elliptical area about 100 feet (30 m) in diameter at a fixed point about 250 yards (230 m) directly ahead of the attacking ship. The mounting initially was fixed but was later replaced by a gyro-stabilised one to allow for the rolling and pitching of the attacking ship.

The system was developed to solve the problem of the target submarine disappearing from the attacking ship's ASDIC when the ship came within the sonar's minimum range. Due to the speed of sound in water, the time taken for the 'ping' echo to return to the attacking ship from the target submarine became too short to allow the human operator to distinguish the returning audible echo from that of the initial sound pulse emitted by the sonar - the so-called 'Instantaneous echo', where the output sound pulse and returning echo merge. This 'blind spot' allowed the submarine to make evasive manoeuvres undetected while the ship was still out of range for depth charge attack, the submarine being effectively invisible to the sonar as the ship came within the sonar's minimum range. The solution was a weapon mounted on the foredeck that discharged the projectiles up and over that carrying ship's bow, to land in the water some distance in front of the ship while the submarine was still outside the sonar's minimum range.


Hedgehog entered service in 1942. Carrying a Torpex charge weighing 16 kg (35 lb), each mortar had a diameter of 18 cm (7.1 in) and weighed about 29.5 kg (65 lb). The projectiles were angled so they would land in a circular shape with a diameter of 40 m (130 ft) about 180 m (590 ft) ahead of a stationary ship. The projectiles would then sink at about 7 m/s (23 ft/s). They would reach a submerged U boat, for example at 200 ft in under 9 seconds. If one struck the submarine, it was hoped the subsequent explosion would trigger all the other bombs to explode as well. Hedgehog remained in use as anti submarine weapon until the end of the war.

Initial success rates - of about 5% - were only slightly better than depth charges. The results were blamed on crew inexperience and low confidence in the weapon. However, after an officer from the DMWD was sent to Londonderry Port, where the convoy crews were based, with better training and shipwide talks on examples of successful Hedgehog attacks, the kill rate improved considerably.[4] By the end of the war, statistics showed that on average, one in every five attacks made by Hedgehog resulted in a kill (compared to less than one in 80 with depth charges).[2] In response to this new deadly threat to its U Boats, the Kriegsmarine brought forward its programme of homing torpedoes in 1943. These could be fired at greater distances from a convoy; after running straight for a predetermined distance, an internal guidance system would take over guiding it to a target.

In late 1943 the Royal Navy introduced Squid. This was a three-tubed mortar that launched depth charges. Initially it was used as a single weapon, but when this failed to be successful, it was upgraded to the "double squid" that consisted of two launchers placed in parallel. In 1955 this system was upgraded to the three-barreled Limbo that launched 400 lb Mynol charges.


The United States produced a rocket version of Hedgehog called Mousetrap, then Weapon Alpha as a replacement for both. Still, Hedgehog remained in service with the United States Navy into the Cold War until both Hedgehog and the less satisfactory Weapon Alpha were replaced by ASROC.[5]

The Australian Army adapted the marine Hedgehog into a land-based seven-shot launcher that could be mounted on the back of Matilda tanks.

From 1949, a copy of Hedgehog was produced in the USSR as MBU-200, developed in 1956 into MBU-600 with increased range of 600 meters.

Operational usage

The launcher had four "cradles", each with six launcher spigots. The firing sequence was staggered so all the bombs would land at about the same time. This had the added advantage of minimising the stress on the weapon's mounting, so that deck reinforcement was not needed, and the weapon could easily be retrofitted to any convenient place on a ship. Reloading took about three minutes.

The Hedgehog had four key advantages over the depth charge:

  1. An unsuccessful attack does not hide the submarine from sonar.
    When a depth charge explodes it can take 15 minutes before the disturbance can settle down enough that sonar becomes effective. Many submarines escaped during the time after an unsuccessful depth charge attack. Since Hedgehog charges only explode on contact, if they miss, the submarine can still be tracked by sonar.
  2. The depth of the target does not need to be known.
    Proximity weapons (such as depth charges) need to be set for the target's correct depth to be effective. Contact fused charges do not have that limitation. In addition, any explosion indicates a "hit".
  3. The weapon gives no warning of the attack.
    Until depth-finding sonar became available (the first was the Royal Navy's "Q" attachment in 1943), there was a "dead period" during the final moments of the attack when the attacker had no knowledge of what the target was doing. U-boat commanders became adept at sharp changes of direction and speed at these moments, thus making the attack less accurate. Ahead-thrown weapons such as Hedgehog did not give the target the necessary warning of when to dodge.
  4. A direct hit by one or two Hedgehog bombs was usually sufficient to sink a submarine.
    Many depth charges were required in order to inflict enough cumulative damage to sink a submarine; even then, many U-boats survived hundreds of detonations over a period of many hours—678 depth charges were dropped against U-427 in April 1945. The depth charge, usually exploding at a distance from the submarine, had a cushion of water between it and the target which rapidly dissipated the explosive shock. The Hedgehog's contact charge, on the other hand, had the cushion on the other side, actually increasing the explosive shock. However, near misses with the Hedgehog did not cause cumulative damage as depth charges did; nor did it have the same psychological effect as a depth charge attack.

The Hedgehog became much more successful than depth-charge attacks (the best kill rate was about 25% of attacks whereas depth charges never achieved more than 7%). It initially had a very poor record, although many of the factors had nothing to do with the design of the weapon. USS England sank six Japanese submarines in a matter of days with Hedgehog in May 1944.[6]

Former operators

 United Kingdom

 United States


General characteristics

Live and practice projectiles - note the protective fuze caps (22) shown removed in the picture at the top of page

For a single bomb


See also


  1. Keegan, John (1989). The Price of Admiralty. New York: Viking. p. 278. ISBN 0-670-81416-4.
  2. 1 2 "Britain ASW Weapons". http://www.navweaps.com. Retrieved 28 May 2015. External link in |publisher= (help)
  3. Fitzsimons, Bernard, ed. (1977). "Illustrated Encyclopedia of 20th Century Weapons & Warfare". 12. London: Phoebus: 1283.
  4. Pawle, G (2009). The Wheezer and Dodgers. The inside story of clandestine weapon development in World War II. Seaforth Publishing. ISBN 1848320264.
  5. Albrecht, Gerhard. Weyer's Warship of the World 1969. (Annapolis, MD: United States Naval Institute Press, 1969), pp.325-328 & 340
  6. Lanier, William D. and Williamson, John A., CAPT USN. "The Twelve Days of the England". United States Naval Institute Proceedings, March 1980, pp. 76–83.

External links

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