Bath Stone is an oolitic limestone comprising granular fragments of calcium carbonate. Originally obtained from the Combe Down and Bathampton Down Mines under Combe Down, Somerset, England, its warm, honey colouring gives the World Heritage City of Bath, England its distinctive appearance. An important feature of Bath Stone is that it is a 'freestone', so-called because it can be sawn or 'squared up' in any direction, unlike other rocks such as slate, which forms distinct layers.
Bath Stone has been used extensively as a building material throughout southern England, for churches, houses, and public buildings such as railway stations.
Some quarries are still in use, but the majority have been either converted to other purposes or are being filled in.
During the Jurassic Period (195 to 135 million years ago) the region that is now Bath was under a shallow sea. Layers of marine sediment were deposited, and individual spherical grains were coated with lime as they rolled around the sea bed, forming the Bathonian Series of rocks. Under the microscope, these grains or ooliths (egg stone) are sedimentary rock formed from ooids: spherical grains composed of concentric layers. That name derives from the Hellenic word òoion for egg. Strictly, oolites consist of ooids of diameter 0.25–2 mm. Rocks composed of ooids larger than 2 mm are called pisolites. They frequently contain minute fragments of shell or rock, and sometimes even decayed skeletons of marine life. Bath stone was taken from the Bath Oolite Member and the Combe Down Member of the Chalfield Oolite Formation, part of the Great Oolite Group.
Use as a building stone
In the Roman and Medieval periods, Bath Stone was extensively used on domestic, ecclesiastical and civil engineering projects such as bridges.
In the early 18th century, Ralph Allen promoted the use of the stone in Bath itself, and demonstrated its potential by using it for his own mansion at Prior Park. The Royal National Hospital for Rheumatic Diseases, which was founded in 1738, was designed by John Wood the Elder, and built with Bath stone donated by Allen. It is a Grade II listed building. There is a fine pediment on the building, in Bath stone, which depicts the parable of the good Samaritan.
St Stephens church, situated on Lansdown Hill in Bath, was constructed from a limestone sourced from the Limpley Stoke mine, which is situated in the Limpley Stoke Valley. The church has recently been restored.
The material has also been used widely outside Bath itself. Claverton Pumping Station at Claverton, which was built of Bath Stone in about 1810, pumps water from the River Avon to the Kennet and Avon Canal, using power from the flow of the River Avon. The stone was also used for the Dundas Aqueduct, which is 150 yards (137.2 m) long, and has three arches built of Bath Stone, with Doric pilasters, and balustrades at each end.
Much of Bristol Cathedral was built of Bath Stone, and the Wills Tower, which is the dominant feature of the Wills Memorial Building, is constructed in reinforced concrete faced with Bath and Clipsham stone. Bristol's Cabot Tower was also faced with Bath Stone. Arno's Court Triumphal Arch was built from Bath stone in about 1760, and was later dismantled before being rebuilt in its current location.
In London, the neo-classical Georgian mansion Lancaster House was built from Bath Stone in 1825 for the Duke of York and Albany, the second son of King George III, as was St Luke's Church, Chelsea in 1824, and several other churches, including Church of Christ the King, Bloomsbury, were built from the material. Apsley House, the town house of the Dukes of Wellington, was remodelled by the 1st Duke, using in Bath Stone cladding over the original red brick.
In Reading, the original building of the Royal Berkshire Hospital of 1839, together with the wings added in the 1860s, are built of Bath Stone, with slate roofs. They are now listed grade II* by English Heritage. In 1860, the nearby Reading railway station, incorporating a tower and clock, was constructed by the Great Western Railway using Bath Stone, and the company also used it for Chippenham railway station.
In 2002 the East End of Truro Cathedral was completely renovated and restored with some of the ornate Bath Stone replaced with harder-wearing Syerford stone. In 2005 the West Front was restored similarly. Both projects were supervised by MRDA Architects of London, the Cathedral architects.
Underground extraction of Bath Stone continues in the Corsham area but on a smaller scale than previously. For example, Hanson Bath & Portland Stone, part of the HeidelbergCement Group, operates Hartham Park Underground Quarry in the Hudswell district (southwest of Pickwick). The Bath Stone Group operates the Stoke Hill mine.
The Box Mine consists of a network of tunnels, which originate from stone mining work. Stone extraction started during the Roman occupation of Britain and ceased in 1968. The mine is now popular for recreational underground trips, and is home to a large population of bats. Up to 10% of the total British population of greater horseshoe bat uses the mine at times, and a maximum of 230 individuals of the species have been counted at the site. The Lesser Horseshoe Bat also uses the mine, as do the four Myotis species: Whiskered, Brandt's, Natterer's and Daubenton's bats.
Combe Down and Bathampton Down Mines
Combe Down and Bathampton Down Mines date from the 17th and 18th century when stone was extracted by the "room and pillar" method, by which chambers were mined, leaving pillars of stone between them to support the roof. The mine contains a range of mine features including well preserved tramways, cart-roads and crane bases. The walls and pillars of the mine are studded with pick and tool marks, and show evidence of the use of huge stone saws, all of which bear testimony to the variety of techniques used to extract the stone over the mine's three hundred year history. No mine abandonment plans of either the tunnels or the caverns, known as voids, were made prior to the 1872 Mining Act. Following their closure, the mines were used for a variety of purposes, including a mushroom farm, and as an air-raid shelter during the World War II Baedeker raids on Bath.
Other uses of stone quarries
During the 1930s there was a recognition of a need to provide secure storage for munitions in the south of the United Kingdom, and a large area of the quarries around the Corsham area was renovated by the Royal Engineers as one of three major munitions stockpiles. This ammunition depot was serviced by a spur railway line from the main London to Bristol line, branching off just outside the eastern entrance to Box Tunnel. A portion of the underground quarry complex was developed as a 'shadow factory' for aircraft engines, to act as a fallback should the Bristol Engine company Factory at Filton be taken out of action by hostile bombing. In practice this factory was never used.
In another part of the quarry area, Royal Air Force Box was established as the Headquarters of No10 Fighter Group, Royal Air Force. RAF Box was later renamed RAF Rudloe Manor and expanded to encompass a number of communications functions, including No1 Signal Unit, Controller Defence Communications Network, No1001 Signal Unit Detachment and Headquarters RAF Provost & Security Service. No1SU and CDCN were both housed in bunkers within the quarry complex, which also included an RAF Regional Command Centre for the South West of England.
British defence doctrine during the early Cold War period indicated a requirement for a fallback location for central government outside London, to assume national control in the event of London being destroyed. The quarry complex at Corsham was chosen for this location and development of the site commenced in the 1950s. In the event of imminent nuclear attack, it was assumed that the government would be evacuated from London by rail or helicopter. The facility would provide a safe haven for the Prime Minister, the Cabinet, commanders of the Royal Air Force, Royal Navy, and British Army and supporting civil servants and military personnel. Facilities inside the complex included accommodation and catering for nearly 4,000 people, including a hospital, organic electrical generation and the ability to seal the complex from the outside environment, contaminated by radiation or other threat.
The defence facilities known by various code names like Stockwell, Turnstile, Hawthorn and Burlington have been built in quarries include Military Command & Control, storage and a fallback seat of national government. Some areas of the quarry complex were hardened and provided with support measures to ensure resilience in the event of a nuclear attack. The site was decommissioned and placed in a state of care & maintenance in the mid 1990s following the fragmentation of the Soviet Union and the end of the cold war. The site has been offered for sale, conditional on a Private Finance Initiative for the continued use of above ground facilities.
Corsham Computer Centre was built into Hudswell Quarry during the 1980s and current examples of other uses include not only defence establishments, but also a wine cellar at Eastlays (near Gastard) and storage for magnetic media (for Off-site Data Protection) at Monk's Park (near Neston).
During 1989 a utilities contractor unexpectedly broke through into part of the mines complex whilst excavating a trench. This raised concerns locally, resulting in the then Bath City Council commissioning studies to survey the condition of the mines. It was clear that the mines were in a very dangerous state and some experts considered them to be the largest, shallowest, and most unstable of their kind in Europe. Approximately 80% of the mines, which are up to 9 metres (30 ft) high and cover a total area of about 18 hectares (180,000 m2), had less than 6 metres (20 ft) cover and as little as 2 metres (7 ft) in some places.
In March 1999, the then Department of Environment, Transport and Regions (DETR), now known as the Department for Communities and Local Government, announced a Land Stabilisation Programme, based on the Derelict Land Act 1982. A Parliamentary Statutory Instrument (2002 No. 2053) was needed before the work could be undertaken. Foamed concrete has been selected as the best material to use in the large-scale infilling of the old mine workings. It is planned that over 400,000 cubic metres (523,180 cu yd) of foamed concrete will be placed in the shallower underground mines, making it the single largest application of foamed concrete in the United Kingdom.
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