The Ochil Fault and the Kincardine basin: key structures in the tectonic evolution of the Midland Valley of Scotland

Rippon, J. H.; Read, W. A.; Park, R. G.

doi:10.1144/gsjgs.153.4.0573

Cited by 26 publications

(31 citation statements)

References 21 publications

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“…Half-grabens and intervening highs in the Midland Valley of Scotland were generated during the Early Carboniferous by N-S oriented fault systems, with a right lateral strike-slip component (Rippon et al, 1996). The Carboniferous strata are divided into the Inverclyde (Tournasian) and Strathclyde (Viséan) Groups (Whyte, 1993 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 6 climate and collectively referred to as Lake Cadell (Greensmith, 1968) (Fig.…”

Section: Geological Backgroundmentioning

confidence: 99%

A depositional model for spherulitic carbonates associated with alkaline, volcanic lakes

Mercedes‐Martín

Brasier

Rogerson

et al. 2017

Marine and Petroleum Geology

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The South Atlantic Aptian 'Pre-salt' reservoirs are formed by a combination of spherulitic carbonates and Mg-rich clays accumulated in volcanic alkaline lake settings with exotic chemistries. So far, outcrop analogues characterised by metre-thick successions deposited in lacustrine scenarios are elusive so disentangling the genesis of spherulitic carbonates represents a major scientific challenge with business impact. In particular the controls on spatial distribution and the environment of spherulitic facies formation remain poorly constrained, little studied, and hotly debated. To shed light on this conundrum, a spherulitic carbonate-rich, alkaline volcanic lacustrine succession has been analysed at outcrop scale: the Carboniferous East Kirkton Limestone (Scotland). Despite clays being very scarce and limited to layers of amorphous Mg-Si minerals, a diverse array of components were formed, including coated grains, crusts, and build-ups with spherulitic calcitic morphologies. This setting enables the mechanisms of spherulitic calcite development and the patterns of sediment accumulation to be explored in a geobiological and hydrochemical scenario similar to the 'Pre-Salt' subsurface occurrences but divorced from clay influence. The integration of logs, borehole data, outcrop photomosaics and petrographic observations collectively allowed the reconstruction of a depositional model for the East Kirkton lacustrine succession. In this model, calcite spherule nucleation took place at the sediment-water interface in the littoral zone, driven by the co-occurrence of 1) high alkalinity, 2) CaMg rich hydrochemistry, and 3) microbial-derived colloidal exopolymeric substances. These environmental conditions permitted the coeval development of spherulitic cementstone build-ups and spherulitic grainstone-packstone within the wave-agitated zone, and the accumulation of floatstones and laminites of spherulitic grains in deeper lake regions by means of downslope reworking. This model is consistent with the previously documented microbial bloom occurrences and highlights the need to better understand the complex 'microbe-solution' interactions before any reliable facies model is envisaged. Dear Nereo Preto,We thank the Editorial effort and the detailed and constructive review work which can make our submission JMPG-D-17-00060 ("A depositional model for spherulitic carbonates associated with alkaline, volcanic lakes") a relevant contribution for the field.We have addressed all the suggestions, concerns and comments of the reviewers in particular we have highlighted those comparative aspects with the Presalt occurrences, we have amended some terminological issues and we have added some paragraphs in regards of diagenetic aspects relevant for the goal of our work.Thus we hope you find this new version suitable for publication in MPG journal. A detailed rebuttal letter in a point by point fashion is also enclosed.If you would like further changes, please do let us know. Reviewer 1: Overall comments Comment 1 -I think the ...

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Section: Geological Backgroundmentioning

confidence: 99%

A depositional model for spherulitic carbonates associated with alkaline, volcanic lakes

Mercedes‐Martín

Brasier

Rogerson

et al. 2017

Marine and Petroleum Geology

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“…Clearly, the East Ochil Fault existed as an active feature during Visean and Namurian development of the Midlothian-Leven Syncline and associated growth folds. Rippon et al (1996) described an active West Ochil Fault from Lower Devonian to Namurian times. In the light of recent work documenting less than 30 km of post-Early Devonian lateral movement on the Highland Boundary Fault (Tanner 2008), the East and West Ochil faults possibly played a more significant role in the Carboniferous dextral strike-slip evolution of the eastern Midland…”

Section: Geological Structure and Faultingmentioning

confidence: 99%

New insights from 3D geological models at analogue CO ₂ storage sites in Lincolnshire and eastern Scotland, UK

Monaghan

Ford

Milodowski

et al. 2012

PYGS

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SUMMARY:Subsurface 3D geological models of aquifer and seal rock systems from two contrasting analogue sites have been created as the first step in an investigation into methodologies for geological storage of carbon dioxide in saline aquifers. Development of the models illustrates the utility of an integrated approach using digital techniques and expert geological knowledge to further geological understanding. The models visualize a faulted, gently dipping Permo-Triassic succession in Lincolnshire and a complex faulted and folded Devono-Carboniferous succession in eastern Scotland. The Permo-Triassic is present in the Lincolnshire model to depths of -2 km OD, and includes the aquifers of the Sherwood Sandstone and Rotliegendes groups. Model-derived thickness maps test and refine Permian palaeogeography, such as the location of a carbonate reef and its associated seaward slope, and the identification of aeolian dunes. Analysis of borehole core samples established average 2D porosity values for the Rotliegendes (16%) and Sherwood Sandstone (20%) groups, and the Zechstein (5%) and Mercia Mudstone (<10%) groups, which are favourable for aquifer and seal units respectively. Core sample analysis has revealed a complex but well understood diagenetic history. Re-interpretation of newly reprocessed seismic data in eastern Scotland has significantly reduced interpretative uncertainty of aquifer and seal units

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“…The MVS is bounded by the Caledonide Highland Boundary Fault to the north and the Southern et al 1996;Rippon et al 1996).…”

Section: Geological Settingmentioning

confidence: 99%

“…The thermal and burial history modelling indicates up to 1.9 km of additional burial of Carboniferous strata compared to present day levels: up to 660 m deposited by the end of the Carboniferous period subsequently removed by Variscan uplift and erosion, followed by up to 1.9 km of burial Smith 1995;Rippon et al 1996). The post-Palaeozoic history is difficult to define due to erosion and overprinting by younger tectonic events.…”

mentioning

confidence: 95%

“…The post-Palaeozoic history is difficult to define due to erosion and overprinting by younger tectonic events. Carboniferous sedimentary basins exhibit faultbounded and synclinal/anticlinal structural styles typical of extensional to strike-slip settings (Read et al 2002;Rippon et al 1996;Ritchie et al 2003;Underhill et al, 2008). One such Carboniferous basin, the Midlothian-Leven syncline (Figure 1), in the eastern Midland Valley of Scotland, has been extensively studied due to a high quality seismic dataset and coastal exposures.…”

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confidence: 99%

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Thermal and burial history modelling in the Midlothian-Leven syncline in the Midland Valley of Scotland using BasinMod and HotPot

Vincent

Rowley

Monaghan

2010

SJG

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Basin subsidence and thermal history models of the eastern part of the Midland Valley of Scotland have been constructed to characterise the development of the Midlothian-Leven synclinal basin from the mid Mississippian to the present day. Two modelling programs were used: BasinMod and HotPot. BasinMod models are based on thermal maturity at borehole sites;HotPot models operate on stacks of 2D layer grids using a mechanical compaction method. The thermal and burial history modelling indicates up to 1.9 km of additional burial of Carboniferous strata compared to present day levels: up to 660 m deposited by the end of the Carboniferous period subsequently removed by Variscan uplift and erosion, followed by up to 1.9 km of burial Smith 1995;Rippon et al. 1996). The post-Palaeozoic history is difficult to define due to erosion and overprinting by younger tectonic events. Carboniferous sedimentary basins exhibit faultbounded and synclinal/anticlinal structural styles typical of extensional to strike-slip settings (Read et al. 2002;Rippon et al. 1996;Ritchie et al. 2003;Underhill et al., 2008). One such Carboniferous basin, the Midlothian-Leven syncline (Figure 1), in the eastern Midland Valley of Scotland, has been extensively studied due to a high quality seismic dataset and coastal exposures. Its tectonic and stratigraphical development is well documented (Ritchie et al. 2003;Underhill et al., 2008) and a schematic model has been proposed for the generation of hydrocarbons which occur around its margins (Underhill et al., 2008). However, detailed numerical data on the burial and thermal history of the basin are lacking. This paper integrates maturity data from three boreholes, compaction data from a further eight boreholes ( temperature of burial of Lower to Upper Carboniferous strata and their subsequent postPalaeozoic history. Much of the thermal maturity data is from Raymond (1991).The models are constructed using two contrasting modelling packages; Basinmod and Hotpot.BasinMod (Platte River Associates Inc. software) models compaction and temperature through burial over geological time using stratigraphical and vitrinite reflectance maturity data from a borehole. The first step in HotPot (British Geological Survey (BGS) software) is to undertake a depth of burial study using rock density properties of mudstone to map the predicted thickness of eroded overburden within the study area. A calculation is then applied to restore the depositional thickness (backstripping) of stratigraphical units and construct the basin depositional history model. This is in turn used to compute the thermal history model. HotPot provides a basin-wide overview using grids from structural interpretation, giving a 'broad-brush' basin history.BasinMod provides analysis on 1D boreholes and allows detailed variability in sedimentation rates etc., to be considered. The modelling techniques used by HotPot and BasinMod complement each other and were used iteratively to achieve the final model. Geological settingThe MVS is bounded by the Caledo...

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The Ochil Fault and the Kincardine basin: key structures in the tectonic evolution of the Midland Valley of Scotland

Cited by 26 publications

References 21 publications

A depositional model for spherulitic carbonates associated with alkaline, volcanic lakes

A depositional model for spherulitic carbonates associated with alkaline, volcanic lakes

New insights from 3D geological models at analogue CO ₂ storage sites in Lincolnshire and eastern Scotland, UK

Thermal and burial history modelling in the Midlothian-Leven syncline in the Midland Valley of Scotland using BasinMod and HotPot

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The Ochil Fault and the Kincardine basin: key structures in the tectonic evolution of the Midland Valley of Scotland

Cited by 26 publications

References 21 publications

A depositional model for spherulitic carbonates associated with alkaline, volcanic lakes

A depositional model for spherulitic carbonates associated with alkaline, volcanic lakes

New insights from 3D geological models at analogue CO 2 storage sites in Lincolnshire and eastern Scotland, UK

Thermal and burial history modelling in the Midlothian-Leven syncline in the Midland Valley of Scotland using BasinMod and HotPot

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Product

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New insights from 3D geological models at analogue CO ₂ storage sites in Lincolnshire and eastern Scotland, UK