Jump to content

Gwennap

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by Johnsoniensis (talk | contribs) at 15:49, 20 October 2016 (Church history: italic). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Gwennap
Gwennap Parish Church
Population1,532 (Civil Parish, 2011)
OS grid referenceSW741400
Civil parish
  • Gwennap
Unitary authority
Ceremonial county
Region
CountryEngland
Sovereign stateUnited Kingdom
Post townREDRUTH
Postcode districtTR16
Dialling code01872
PoliceDevon and Cornwall
FireCornwall
AmbulanceSouth Western
UK Parliament
List of places
UK
England
Cornwall

Gwennap (Cornish: Lannwenep)[1] is a village and civil parish in Cornwall, England, United Kingdom. It is about five miles (8 km) southeast of Redruth.[2]

In the 18th and early 19th centuries Gwennap parish was the richest copper mining district in Cornwall,[3] and was called the "richest square mile in the Old World".[4] It is the location of the Great County Adit, and once-famous mines such as Consolidated Mines, Poldice mine and Wheal Busy. Today it forms part of area A6i (the Gwennap Mining District) of the Cornwall and West Devon Mining Landscape World Heritage Site.[5]

Gwennap Pit

It lends its name to Gwennap Pit where John Wesley preached 18 times between 1762 and 1789, although Gwennap Pit is about 1.7 miles (2.7 km) to the north west at the hamlet of Busveal near St. Day. The pit was caused by mining subsidence in the mid-18th century. After Wesley's death the local people turned the pit into a regular circular shape with turf seats.[3]

Church history

Gwennap church is dedicated to St Wenappa; in 1225 it was given to the chapter of Exeter by Lord William Briwere. The parish church is an old foundation but was rebuilt in the 15th century because of population growth caused by mining and then thoroughly restored in the 19th century. The tower is detached. According to Charles Henderson "few Cornish churches are less interesting than Gwennap".[6]

Copper and tin mining

Mining in Gwennap is an industry stretching back to prehistoric times when tin streaming in the Carnon Valley is believed to have occurred. In surrounding valleys stones of cassiterite (SnO2) were washed downstream from outcropping lodes and trapped in the alluvial mud where they could be easily extracted. Later these outcropping tin lodes were worked by 'bounders' and the open workings (coffins) of these early miners are still partially visible at Penstruthal.

Early evidence of the antiquity of mining in Gwennap is recorded in the Stannary Roll of 1305–06 which notes that Johannes Margh of Trevarth sent 30 shipments of tin to Truro. In 1512 two local men were overheard quarrelling in Cornish about the theft of "tynne at Poldyth in Wennap".

Tin raised in Gwennap was dressed and smelted locally. Early modern 'crazing mills' powered by water, such as that which existed at Penventon, were built to grind, and later stamp the tin ore. This released cassiterite which was then smelted in local 'burning houses'. Demand for charcoal in the smelting process rapidly depleted Gwennap's ancient woodland, leaving a wild, moorland, landscape.

Deep exploitation of the tin lodes was not possible with the limited technology of the early modern period as Cornish mines were wet due to the high rainfall of the area. De-watering workings at depth with 'rag and chain pumps', leather bags or 'kibbles' (metal buckets) were all ineffective. Deep lode mining was only made possible by two innovations, the first of which occurred in 1748, when John Williams of Scorrier House initiated the construction of the Great County Adit, a phenomenal feat of engineering, which drained mine workings through a system of adits. Over the next century this was extended from Poldice to include many other mines consisting of 63 miles (101 km) of tunnels in all.

The other remarkable invention was that of the steam engine, allowing mines to be de-watered to greater depths. As one of Britain's earliest industrial regions, Gwennap had by the early 19th century become synonymous with steam technology, attracting Britain's top engineers including Boulton & Watt and William Murdoch. Together with Cornish engineers such as Loam, Sims, Woolf, Hornblower and Richard Trevithick, these men enabled the pumping engine to perform beyond the expectations of the time.

Such innovations coincided with an increased national demand for copper, needed in the brass parts for the machinery of the Industrial Revolution. By 1779 copper was ousting tin as the main mineral extracted, but it was the period from 1815 to 1840 which was the heyday of mining in Gwennap. This era saw the rise of huge mining enterprises including the Consolidated, United, and Tresavean Mines. Consolidated yielded almost 300,000 tons of copper between 1819 and 1840 which sold for over £2 million. Gwennap the "Copper Kingdom" was then the richest known mineralised area in the world.

Mining rapidly transformed the landscape. Consolidated Mines alone had 19 engine houses for pumping, winding and crushing: the red waste rock from deep underground lay strewn about the moors and the valleys constantly echoed to the roar of the 'stamps'. Another visible sign of industrialisation was the construction of mineral tramways which transported copper ore and Welsh coal to and from coastal ports more efficiently than packs of mules.

In 1809 a horse-drawn tramway was constructed between Portreath and Scorrier which was later extended to Poldice and Crofthandy. This was followed by the building of the Redruth-Chasewater Railway in 1824 running from Pedn-an-Drea and Wheal Buller, Redruth to Devoran.

Mining reached its technical apogee in Gwennap in the 1840s with the installation of the first ever man engine in Britain at Tresavean Mine; but the nature of the area's geology, which had bestowed such wealth, eventually proved its downfall.

View of the now defunct Wheal Unity mine to the east of St. Day. This image shows the badly scarred landscape of the area.
Frogpool Methodist Church

In the nearby Camborne-Redruth district, rich deposits of tin were found below the copper. In Gwennap no such deposits were found and when low prices caused the collapse of the copper market in the 1860s, many mines were forced to close or amalgamate. Consolidated and United were incorporated into Clifford Amalgamated mine. Many of the mines that continued or went over to tin production could not survive the rising cost of coal and the fluctuations of mineral prices, causing a second wave of closures in the mid-1870s.

Few mines survived the troubled times of the late 19th century, but Tresavean was one success story. Brought back to life as a tin mine in 1908 it was the second deepest mine in Cornwall at 2,660 feet (810 m) when it closed in 1928. Other mines that were resurrected in the 20th century include Wheal Gorland, worked for tungsten before the World War I, Wheal Busy, Mount Wellington, Whiteworks, Poldice, Parc an Chy, and Wheal Jane. The last mine to work commercially was South Crofty Mine at Pool near Redruth which ceased operation in March 1998 bringing to a close over two thousand years of mining in the Gwennap area.[7]

Notable people

Gwennap was the birthplace of John Verran, Premier of South Australia, and of John Lawn, a New Zealand gold miner.

References

  1. ^ Place-names in the Standard Written Form (SWF) : List of place-names agreed by the MAGA Signage Panel. Cornish Language Partnership.
  2. ^ Ordnance Survey: Landranger map sheet 204 Truro & Falmouth ISBN 978-0-319-23149-4.
  3. ^ a b "Gwennap Pit". Cornwall Council. Archived from the original on 12 June 2009. Retrieved 26 February 2009.
  4. ^ "Gwennap Mining District". Cornwall Council. Archived from the original on 14 April 2009. Retrieved 10 August 2009.
  5. ^ "Cornish Mining World Heritage – Gwennap Mining District Location Map". Cornwall Council. Archived from the original on 21 November 2008. Retrieved 10 August 2009.
  6. ^ Cornish Church Guide (1925); pp. 105–06
  7. ^ Adapted from panel in St Day Church by the Mining Villages Regeneration Project

Further reading