Modelling the structural controls of primary kaolinite formation

Tierney, R.L.; Glass, Hylke J.

doi:10.1016/j.geomorph.2016.05.022

Cited by 3 publications

(3 citation statements)

References 27 publications

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“…Hall and Gillespie, 2017). These zones indicated as faults (Figure 3a) or structural trends (Figure 8) likely provided loci for preferential transformation into deeply weathered saprolite similar to the weathered beds currently found exposed in granitic terrain in SW England (Tierney and Glass 2016). However while fracture induced weathering appears plausible as an explanation for the incised valleys and basins on the CDGP, deeply weathered profiles were not observed during this work.…”

Section: Effects Of Structure and Lithology On Landscape Developmentsupporting

confidence: 56%

Landscape evolution of the granitic Criffel–Dalbeattie hills, south-west Scotland

Ringrose

Cassidy

2021

Scottish Geographical Journal

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This paper examines the geomorphological evolution of the Criffel-Dalbeattie granitic pluton (CDGP). Research is based on data from Shuttle Radar Topography Mission, Google Earth, Ordnance Survey maps and field measurements. Granitic emplacement into Southern Uplands terrain along Caledonian structural trends took place during the mid-late Devonian. Faulting and subsidence during the late Palaeozoic and Mesozoic preceded assumed differential uplift of the pluton during the early Palaeocene. This led to the development of bidirectional palaeo-surfaces. Structural rather than lithological controls formed the dominant bases for subsequent weathering during the Palaeogene and Neogene. Shallow surface weathering over the CDGP and absence of saprolite imply that weathering episodes may have been relatively short-lived. However, joint enlargement and in situ eroded corestones indicate that earlier weathered features were substantially modified by glacial agencies. Pleistocene glacial events included ice streaming from the NNW which took place over moulded hills. Thinner late-stage ice scoured irregular hill long profiles while divergent ice contributed to basin erosion. Localised resurgent ice streaming was short lived. After early uplift and palaeo-surface formation, the CDGP hills evolved through phases of granitic weathering and glacial erosion likely over the past 65 Ma since the early Palaeocene.

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Section: Effects Of Structure and Lithology On Landscape Developmentsupporting

confidence: 56%

Landscape evolution of the granitic Criffel–Dalbeattie hills, south-west Scotland

Ringrose

Cassidy

2021

Scottish Geographical Journal

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“…Products of hydrothermal alteration are present, such as Kaolinite (likely Dickite at reservoir depth [15][16][17][18], greisenisation (paired with tourmalinisation and cassiterite veins [19], Tourmaline veins (related to the circulation of boron-enriched fluids in hydrothermal convection cells [20], Chlorite [20], hydrothermal W/Sn/Cu/As/Zn ore minerals (mainly in the metasediments [4,13] and Quartz, Fluorite or Barite veins [15,21]. Cornwall is intersected by several fault systems, such as the Porthtowan Fault Zone (PTF), which are mainly strike slip faults, roughly trending NW-SE (NNW-SSE) and locally referred to as 'cross courses' [9], connecting ENE-WSW-striking extensional faults [13] or dykes, called 'Elvans'.…”

Section: Geological Settingmentioning

confidence: 99%

“…Products of hydrothermal alteration are present, such as Kaolinite (likely Dickite at reservoir depth [15][16][17][18], greisenisation (paired with tourmalinisation and cassiterite veins [19], Tourmaline veins (related to the circulation of boron-enriched fluids in hydrothermal convection cells [20], Chlorite [20], hydrothermal W/Sn/Cu/As/Zn ore minerals (mainly in the metasediments [4,13] and Quartz, Fluorite or Barite veins [15,21]. [5], sampling locations and relevant project locations; PTF simplified after Reinecker et al [22]; meta sediments, dykes and non-magmatic geological units in grey.…”

Section: Geological Settingmentioning

confidence: 99%

Lab-Scale Permeability Enhancement by Chemical Treatment in Fractured Granite (Cornubian Batholith) for the United Downs Deep Geothermal Power Project, Cornwall (UK)

2022

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A hydrothermal doublet system was drilled in a fault-related granitic reservoir in Cornwall. It targets the Porthtowan Fault Zone (PTF), which transects the Carnmenellis granite, one of the onshore plutons of the Cornubian Batholith in SW England. At 5058 m depth (TVD, 5275 m MD) up to 190 °C were reached in the dedicated production well. The injection well is aligned vertically above the production well and reaches a depth of 2393 m MD. As part of the design process for potential chemical stimulation of the open-hole sections of the hydrothermal doublet, lab-scale acidification experiments were performed on outcrop analogue samples from the Cornubian Batholith, which include mineralised veins. The experimental setup comprised autoclave experiments on sample powder and plugs, and core flooding tests on sample plugs to investigate to what degree the permeability of natural and artificial (saw-cut) fractures can be enhanced. All samples were petrologically and petrophysically analysed before and after the acidification experiments to track all changes resulting from the acidification. Based on the comparison of the mineralogical composition of the OAS samples with the drill cuttings from the production well, the results can be transferred to the hydrothermally altered zones around the faults and fractures of the PTF. Core Flooding Tests and Autoclave Experiments result in permeability enhancement factors of 4 to >20 and 0.1 to 40, respectively. Mineral reprecipitation can be avoided in the stimulated samples by sufficient post-flushing.

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Landscape evolution of Dartmoor, SW England: A review of evidence-based controversies and their wider implications for geoscience

Gunnell

2020

Proceedings of the Geologists' Association

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Modelling the structural controls of primary kaolinite formation

Cited by 3 publications

References 27 publications

Landscape evolution of the granitic Criffel–Dalbeattie hills, south-west Scotland

Landscape evolution of the granitic Criffel–Dalbeattie hills, south-west Scotland

Lab-Scale Permeability Enhancement by Chemical Treatment in Fractured Granite (Cornubian Batholith) for the United Downs Deep Geothermal Power Project, Cornwall (UK)

Landscape evolution of Dartmoor, SW England: A review of evidence-based controversies and their wider implications for geoscience

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