Mid-Caradoc magmatism in central Llyn, rhyolite petrogenesis, and the evolution of the Snowdonia volcanic corridor in NW Wales

Gibbons, Wes; Young, Tim

doi:10.1144/gsjgs.156.2.0301

Cited by 4 publications

(8 citation statements)

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“…The best geochemical match for the Ardleigh clast is provided by the mid-Ordovician (Caradoc) volcanic rocks of Wales, for which analytical data has been published for the outcrops in Snowdonia (Thorpe et al, 1993), Llŷn (Gibbons and Young, 1999) and SW Wales (Bevins et al, 1991). Snowdonia rhyolites studied by Thorpe et al (1993) are considered to have subalkaline affinities, although for the Llŷn suites a wide variation in alkalies content was demonstrated by Gibbons and Young (1999). On immobile trace element variation diagrams, the Welsh volcanic rocks follow a number of separate crystallisation paths, as shown by the Nb/Zr distributions in Fig.…”

Section: Provenance Of the Clastmentioning

confidence: 99%

“…A comprehensive comparative survey of other trace element abundances has not been attempted but it is noted, for example, that most Lake District volcanic rocks have La/Nb ratios greater than the value of 1.0 for the Ardleigh clast. The best geochemical match for the Ardleigh clast is provided by the mid-Ordovician (Caradoc) volcanic rocks of Wales, for which analytical data has been published for the outcrops in Snowdonia (Thorpe et al, 1993), Llŷn (Gibbons and Young, 1999) and SW Wales (Bevins et al, 1991). Snowdonia rhyolites studied by Thorpe et al (1993) are considered to have subalkaline affinities, although for the Llŷn suites a wide variation in alkalies content was demonstrated by Gibbons and Young (1999).…”

Section: Provenance Of the Clastmentioning

confidence: 99%

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A striated, far travelled clast of rhyolitic tuff from Thames river deposits at Ardleigh, Essex, England: evidence for early Middle Pleistocene glaciation in the Thames catchment

Rose

Carney

Silva

et al. 2010

Netherlands Journal of Geosciences

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This paper reports the discovery of an in-situ striated, far-travelled, oversized clast in the Ardleigh Gravels of the Kesgrave Sands and Gravels of the River Thames at Ardleigh, east of Colchester in Essex, eastern England. The morphology, petrography and geochemistry of the clast, and the sedimentology of the host deposit are described. The striations are interpreted, on the basis of their sub-parallelism and the shape and sub-roundedness of the clast, as glacial and the clast is provenanced to Ordovician rocks of the Llŷn and Snowdonia regions of North Wales. On the basis of clast frequency within the Colchester Formation gravels of the Kesgrave Sands and Gravels it is inferred that glaciers reached the Cotswold region of the Thames catchment. Floe-ice transport during spring flood is invoked for movement from the glaciated region to eastern England. The paper discusses the possible age of the glaciation and recognises that it is difficult to be more precise than a cold stage in the early Middle Pleistocene (MIS 18, 16 or 14). Attention is drawn to the possibility of glaciation associated with a diamicton in the region of the Cotswold Hills known as the Bruern Till, but stresses the need for new work on this deposit.

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Section: Provenance Of the Clastmentioning

confidence: 99%

Section: Provenance Of the Clastmentioning

confidence: 99%

A striated, far travelled clast of rhyolitic tuff from Thames river deposits at Ardleigh, Essex, England: evidence for early Middle Pleistocene glaciation in the Thames catchment

Rose

Carney

Silva

et al. 2010

Netherlands Journal of Geosciences

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“…2). Thick (locally > 500 m) rhyolitic ash flow tuff sequences were erupted from the calderas into a shallow marine and locally subaerial environment ( Howells et al ., 1991 ; Gibbons and Young, 1999). These rhyolitic products are sometimes intercalated with, and were commonly followed by, basaltic effusions leaking up bounding faults and constructing transient Strombolian cones and trough‐accumulations of submarine lavas ( Fig.…”

Section: Snowdonia Volcanic Corridormentioning

confidence: 99%

“…2). All this volcanicity was restricted not only in space but also in time: eruptions took place over just a few (?2–4) million years inside the span of three mid‐Caradoc stages (Soudleyan, Longvillian, Woolstonian) and two graptolite zones ( Dicranograptus clingani and Diplograptus multidens ) ( Gibbons and Young, 1999). Abrupt cessation of magmatism occurred in Woolstonian times and black graptolitic mud covered the subsiding, extinct volcanic centres.…”

Section: Snowdonia Volcanic Corridormentioning

confidence: 99%

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Rhyolitic volcanic corridors in magmatic arcs: comparing North Wales and North Island, New Zealand

Gibbons

1998

Terra Nova

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Exceptionally voluminous arc‐related rhyolitic eruptions from clusters of caldera complexes, as seen in Snowdonia, North Wales (mid‐Caradoc), and North Island, New Zealand (late Neogene‐Quaternary), are characteristically confined within transient, fault‐controlled corridors in continental crust. New Zealand rhyolitic corridors (Coromandel, Central, Taupo) have developed in response to the spearheading of an oceanic arc into continental crust, combined with subduction rollback‐induced extension during clockwise rotation pivoting around central North Island. Inherited high heat flow from earlier arc magmatism, intracrustal plastic deformation, and mantle‐derived magma ponding and fractionation beneath a less dense, fracture‐toughened crust, all contribute synergistically to crustal fusion and catastrophic volcanism. A similar scenario is suggested for the Snowdonia volcanic corridor where at least six major rhyolitic centres were restricted in space and time (Soudleyan‐Woolstonian). After the climactic Snowdonian eruptions, arc magmatism was extinguished in Wales: a fate predicted for New Zealand rhyolitic volcanism as subduction rollback continues.

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Inorganic geochemistry of the type Caradoc series (Sandbian to middle Katian, Upper Ordovician), Onny valley, Shropshire, UK

Hannigan

Brookfield

2013

Geol. Mag.

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The geochemistry and petrology of the type section of the Caradoc Series in the Onny valley indicate that it was deposited on a marginal basin continental shelf similar to the western side of the present Sea of Japan. The lower beds form a transgressive-regressive sequence in which the rocks become less mature upwards. All the coarser sediments above the basal quartzites and conglomerates are greywackes in which the apparent muddy and ferrous matrix is due to the breakdown of unstable minerals and particles. Higher values of Na 2 O and Na/K ratios are found in the coarser shallow-water sandstones of the Horderley Sandstone Formation and decrease markedly in the succeeding beds, accompanied by an increase in K 2 O. Higher values of carbonate-corrected (and hence related) other major and minor elements like SiO 2 , CaO, P 2 O 5 , MnO and most trace elements correlate with the transgressive systems and maximum flooding surfaces of the three sequences recognized where they are related to condensation at those horizons. Chemical Indices of Alteration (CIA) suggest that the Horderley Sandstone Formation underwent greater predepositional physical weathering than lower and higher beds, which is compatible with the petrography, and were deposited during a cool phase within overall warm Sandbian-Katian times. Trace element ratios suggest an oxic to suboxic depositional environment.

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Mid-Caradoc magmatism in central Llyn, rhyolite petrogenesis, and the evolution of the Snowdonia volcanic corridor in NW Wales

Cited by 4 publications

References 51 publications

A striated, far travelled clast of rhyolitic tuff from Thames river deposits at Ardleigh, Essex, England: evidence for early Middle Pleistocene glaciation in the Thames catchment

A striated, far travelled clast of rhyolitic tuff from Thames river deposits at Ardleigh, Essex, England: evidence for early Middle Pleistocene glaciation in the Thames catchment

Rhyolitic volcanic corridors in magmatic arcs: comparing North Wales and North Island, New Zealand

Inorganic geochemistry of the type Caradoc series (Sandbian to middle Katian, Upper Ordovician), Onny valley, Shropshire, UK

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