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The Group's aim is to identify, survey, protect and promote geological and geomorphological sites in the former County of Avon - the modern unitary authorities of Bath and North East Somerset, Bristol, North Somerset and South Gloucestershire. RIGS are selected for their educational, research, historical and aesthetic value.

Thursday 24 January 2013

Trendlewood Quarry Nailsea



RIGS of the Month – January 2013

Trendlewood Quarry, Nailsea


Pennant Sandstone quarry face in Nowhere Wood
( Double click on picture for larger view )

More photos at  http://tinyurl.com/b7k53sy  Photo credits Richard Kefford


Location:             Trendlewood Park, Nailsea            ST 479 702

RIGS citation:   
Best surviving exposure of Carboniferous Pennant Sandstone in the Nailsea Coalfield.’
 It is designated as a RIGS because of its aesthetic and education value


Access: 
Head North from Nailsea and Backwell railway station, passing St Francis school on the right. Turn right along a public footpath just after the crescent to enter Tendlewood Park. Follow the path through the wood then take a path to the right that slopes down on to the quarry floor. Follow the path until the quarry faces can be seen ahead and to the right. Some parking is available in the crescent road.

Risks: 
Keep away from steep rock faces with loose material that can result in rock falls. Hard hats should be worn when approaching the face.

Topography:     
Path through woodland, unstable rock faces.

General description:
This is a disused quarry that was used to supply building stone to the local area. It was in use until 1930.

It is located in Nowhere Wood which is part of Trendlewood Park. This park is owned by North Somerset Council and managed jointly by the owners and a local group of volunteers known as Friends of Trendlewood Park.




Entrance to Trendlewood Community Park

Geological history
The closure of the Rheic Ocean by the end of the Carboniferous Period (~300 million years ago) caused the Variscan Orogeny, resulting in folding of the strata in our area when ‘Nailsea’ was just north of the equator. This produced high mountains which were then quickly eroded, with the detrital material transported north to be laid down as Pennant Sandstone in deltaic environments.



Geological chronostratigraphic chart


Geological context
The quarry is cut into Pennant Sandstone, a lithology that was deposited in a river system with point bar and channel deposits. The cross bedding directions show that the provenance of the material was from the SSE. The rivers carried eroded material from high ground that was upthrust during the Variscan Orogeny that occurred during the late Carboniferous period.



Formation of cross bedding dune structures


The Sandstone is part of the Downend Formation which is up to 660m thick in the Somerset Coalfield. It consists mainly of sandstone with some mudstone. Some coals appear in the lower part; Graces seam in the Nailsea Coalfield for example.

The Pennant deposition took place during the Bolsovian (Westphalian C) time which is 308 – 311 million years ago.

The Downend Formation is part of the Pennant Sandstone Group and is also known as part of the Upper Coal Measures Group. It is exposed as the uppermost strata in the Nailsea syncline. There is also a small exposure at the road cutting at Bucklands batch, which is passed on the road down the hill to the station. This exposure clearly shows the dip of the strata forming the southern leg of the Nailsea syncline.

Other exposures of Pennant Sandstone in the area occur at Conygar Quarry, Clevedon (private land), at a disused quarry, now Cloud Hill Industrial Estate and at Highbury Hill, near the waterfall. Both are near Temple Cloud. There is also a disused quarry where building stone for Bristol was extracted, at Troopers Hill in St George.

Lithological description
Green-grey and blue-grey, feldspathic, micaceous. Lithic arenites ( “Pennant “Sandstones ) of southerly provenance, with thin mudstone/siltstone and seatearth interbeds and mainly thin coals; the lithologies are commonly arranged in fining upwards channel-fill sequences.

Thickness
c. 275m in the east of the coalfield  [c. SO 25 03 ] to c. 1350m in the Swansea area [SS 73 94]
330m maximum in the Nailsea area.

Geographical limits
Outcrops widely in the South Wales Coalfield, from near Llanelly  [SN 40 00] in the west to Pontypool  [SO 25 03] in the east. It is also present in the Forest of Dean and Bristol coalfields, and in the subsurface in the Oxfordshire and Berkshire coalfields.

Type area
Formation named after the predominant “Pennant” sandstone facies of the South Wales coalfield, which provides a “type area”.

Lithology of Pennant Sandstone
It is classified as a sandstone or arenite which means that the grains are 0.0625mm – 2mm in size. It is feldspathic which means it contains clasts ( grains) of feldspar, an aluminosilicate mineral which makes up some 60% of the Earth’s crust. It is also micaceous, meaning it contains a small proportion of clasts of biotite or muscovite mica which is a hydrated aluminosilicate mineral.
Quartz makes up the majority of the grains, which are cemented by silica.

This composition suggests that Pennant sandstone is composed of the detrital remains of granitic rocks.  Granites are igneous rocks which form volcanic plutons below the surface which may later be upthrust or exposed by erosion of their roof. The grains have polished surfaces which shows that they were transported by water (airborne grains have a ‘frosted’ surfaced). The quartz grains survived the transport because they are very hard, being composed of silicon dioxide. The rock itself is fairly soft.

In some areas the grains are covered with different iron oxides which accounts for the different colours seen. Red colouration is from iron whereas purple is indicative of managanese.

Uses of Pennant sandstone
It has a long history of use as a building stone. As the grains are very hard and resistant to wear it is used as a high skid resistant road material, especially at bends, traffic lights etc.

Richard Kefford


References




Green, GW. (1992) British Regional Geology. Bristol and Gloucester region. BGS.
Published by NERC. ISBN 0 11 884482 2

BGS. England and Wales Sheet 264. Solid and Drift Geology Map. 1:50 000 series.

BGS. Classical areas of British Geology. Geological sheet ST 47 Solid and Drift.
Clevedon and Portishead. 1:25 000 series.



Saturday 5 January 2013

Free public lecture - 8th January

Mapping of Volcanic Terrains across the Solar System

Dr Ellen Stofan

Olympus Mons, Mars. Standing at 22km high (three times the height of Earth's own Mt Everest), it is the tallest volcano in the Solar System. Photo credit: European Space Agency

Venue: @Bristol (Anchor Road, Harbourside, Bristol, BS1 5DB - view map)
Date: 8th January,  18.30 - 19.30

Location: Rosalind Franklin Room, At-Bristol

Admission: Free, lecture suitable over 12s - booking necessary (Book Online
Or phone 0845 4586499 [Monday - Friday, 9am - 5pm excluding Bank Holidays])

Many planets and moons of our solar system show evidence of volcanic eruptions. 

The early missions to the Moon, Mars, Venus and Mercury were truly missions of discovery, with great debates in the scientific community on the roles of impacts and volcanic eruptions in shaping their surfaces.

Join Dr. Ellen Stofan to discuss how these alien volcanic features are mapped and interpreted with knowledge and techniques developed from studies of volcanoes on Earth. A perfect way to celebrate BBC Stargazing Live.

This is a free lecture and is supported by the University of Bristol.


Original article: http://www.at-bristol.org.uk/1647.html