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![(1–5) Cardilia edwardsi n. sp. from the Becton Formation (late Bartonian) of Barton, Hampshire, UK; (1) holotype, NHMUK PI TB 14589, (2) paratype, one broken shell, NHMUK PI TB 14589, both from the Curry collection; (3, 5) NHMUK PI OR 73008; (4) NHMUK PI OR 73008, additional material from the F.E. Edwards collection. Scale bar (1–5) 5 mm.]()
![Derived clasts collected from the middle Selsey and lower Becton formations in Whitecliff Bay. (a, b, d) Fragments of septarian concretions derived from Divisions A–C of the London Clay Formation; these have undergone secondary superficial fracture, cementation and are bored by bivalves. The large specimen in part (a) weighs 2.5 kg and had a very local source. (c) Sideritic concretion derived from the uppermost part of Division E of the London Clay. (e) Small rounded clasts of red Reading Formation clays, 10 m above the base of the Becton Formation. Scale bars: 5 cm in parts (a–c); 20 pence coin in part (e).]()
![Composite section of Eocene–early Oligocene developed in the Isle of Wight based on Whitecliff Bay and Hamstead (upper Bouldnor Formation only) plotted against the GTS 2020 timescale with NP nannoplankton zones and magnetic chrons (Speijer et al. 2020). This shows the extent of hiatuses H1–H5 identified in the Whitecliff Bay succession based on bio- and magnetostratigraphic data from King (2016). The black dots represent lithoclasts and fossils derived from the updip unconformities in the hanging wall (see text for details). Dip values to the right of the lithostratigraphic column represent changes in dip at surfaces taken in Whitecliff Bay (Fig. 4). The range of dates obtained from vein calcites in Dorset (Parrish et al. 2018) is shown. The range of Eocene dates corresponds well with the distribution of inversion-related gaps (48–36 Ma), but the early Oligocene dates do not have corresponding erosional surfaces. LCF, London Clay Formation; WF, Wittering Formation; EF, Earnley Formation; MFF, Marsh Farm Formation; SF, Selsey Formation; BCF, Barton Clay Formation; BF, Becton Formation; TBF, Totland Bay Formation; CBF, Colwell Bay Formation; RF, Ryde Formation; BLF, Bembridge Limestone Formation; BF, Bouldnor Formation; PF, Poole Formation, BSF, Boscombe Sand Formation; BRF, Branksome Formation.]()
![Diagrammatic reconstructions of inversion events over the Sandown Anticline during the Eocene. (a) During deposition of the Selsey Formation (Lutetian), shortly after the H1 inversion; the London Clay Formation is exposed and septarian concretions (Fig. 5) are exhumed, broken up, bored and transported in debris flows into a north–south-oriented offshore channel (Fig. 6). (b) At the base of the Becton Sand Formation, immediately post-dating inversion H3, the White Chalk Group, Reading Formation and London Clay are exposed and clasts are derived into the lower part of the Becton Sand. (c) Inversion H5, immediately post-dating uplift of the Bembridge Limestone Formation, forming a low ridge, from which lithoclasts are derived offshore into the lower Gurnard Member, Bembridge Oyster Bed (Fig. 11). The impervious clays of the Colwell Bay and Ryde formations form a wetland. WCS, White Chalk Subgroup; RF, Reading Formation; LCF, London Clay Formation; W-E formations, Wittering and Earnley formations; MF, Marsh Farm Formation; SF, Selsey Formation; BCF, Barton Clay Formation; BSF, Becton Sand Formation; TBF, Totland Bay Formation; CBF, Colwell Bay Formation; BLF, Bembridge Limestone.]()
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![Sample locations and their stratigraphic context. The extent of sections selected for sampling at sites A–F is shown against the stratigraphic column of Hooker et al. (2009). Map is modified from Daley (1999). The time scale used here and in Figures 3–4 is that of Pälike et al. (2006, supplement). Stratigraphic abbreviations: BAR—Bartonian; Becton S.—Becton Sand Formation; Bemb. Lst—Bembridge Limestone Formation; Hamst.—Hamstead; Hath.—Hatherwood Limestone; L.—lower; Lin.—Linstone Chine; Mbr—Member; S.B.—Seagrove Bay Member.]()
![Representative XRD traces of clay mineral assemblages from the Upper Eocene and the Oligocene of the onshore UK: (a) Barton Clay Formation, (b) Becton Sand Formation, (c) Headon Hill Formation, (d) Headon Hill Formation, (e) Bembridge Limestone Formation, (f) Bouldnor Formation. S = smectite, I = illite, K = kaolin, C = chlorite, Q = quartz.]()
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![Three-dimensional sketches, looking south, illustrating in two steps the structural development of, and relationship between, the Piney Creek thrust (diagonally lined) and Granite Ridge tear fault (shaded). Datum is the top of Precambrian basement. A, Initial development of the Piney Creek thrust. B, differential displacement and uplift along the Piney Creek thrust, segmented by the Granite Ridge tear fault to form the Piney Creek (south) and Walker Mountain (north) thrust blocks. No scale. L.S. = left-lateral separation of the Cambrian-Precambrian outcrop along the Granite Ridge tear fault. Secondary, fault-related anticlines are: B = Becton; WM = Walker Mountain; RG = Red Grade; NPC = North Piney Creek (of Furner, 1990). The Gulf Granite Ridge borehole is shown as it penetrated the Piney Creek thrust and bottomed in the Madison Formation in the footwall.]()
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![A, Northeast-southwest, interpreted, unmigrated (stacked) seismic-reflection profile X (coincident with structural cross section B–B′, Figure 5B) along north side of Granite Ridge tear fault. Scale is ∼1:1. Note that Paleozoic-Mesozoic reflections from ∼2.0 to ∼3.5 s TWTT in the footwall project southwesterly under the Piney Creek thrust to a position beneath stratigraphically equivalent, steeply dipping outcropping formations in the hanging wall of the thrust—a geometry that supports the presence of east-directed Piney Creek thrusting. There is some velocity pull-up beneath the thrust overhang so that footwall dip is decreased moderately after correction for lateral velocity changes and depth migration. Note also the diffraction patterns (DIF) marking (at their peaks) the approximate location of the fault plane at about 2.0 s TWTT (beneath the Kf symbol). Formation symbols are identified in Figure 2. (Profile courtesy of ChevronTexaco). B, Northeast-southwest, interpreted, unmigrated seismic-reflection profile V. Scale is ∼1:1. As in A above, footwall data project to a position beneath their equivalent outcrops in the hanging wall of the Piney Creek thrust, consistent with the interpreted extension of Piney Creek thrusting (with reduced displacement) along the range front within the Walker Mountain block. Depth migration increases hanging-wall dips, but with correction for velocity pull-up beneath the steeply dipping hanging-wall block, footwall dips as projected into the no-data area on left edge of profile remain about the same. All but the west end of this profile is shown as Furner's (1990)Figure 6. The complete profile, shown here, extends 2.3 mi (3.7 km) southwestward from the trimmed edge of his figure. The profile in Furner's figure is displayed with a ∼2.3:1 vertical exaggeration; this has been removed here by stretching the profile horizontally to ∼1:1 scale. Also, note that the Becton thrust extends upward at least into the Upper Cretaceous Mesaverde Formation. See Figure 2 for identification of formation symbols. (Profile courtesy of ConocoPhillips).]()
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Becton Formation
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Image
( 1–5 ) Cardilia edwardsi n. sp. from the Becton Formation (late Bartonia...
Published: 01 March 2018
Figure 7 ( 1–5 ) Cardilia edwardsi n. sp. from the Becton Formation (late Bartonian) of Barton, Hampshire, UK; ( 1 ) holotype, NHMUK PI TB 14589, ( 2 ) paratype, one broken shell, NHMUK PI TB 14589, both from the Curry collection; ( 3, 5 ) NHMUK PI OR 73008; ( 4 ) NHMUK PI OR 73008, additional
Journal Article
Eocene inversion history of the Sandown Pericline, Isle of Wight, southern England
Journal: Journal of the Geological Society
Publisher: Geological Society of London
Published: 01 April 1999
Journal of the Geological Society (1999) 156 (2): 327–339.
...A. S. GALE; P. A. JEFFERY; J. M. HUGGETT; P. CONNOLLY Abstract Study of the composition and distribution of derived lithoclast and fossil suites collected from the Selsey, Barton and Becton Formations in Whitecliff Bay, Isle of Wight has enabled a detailed reconstruction of Mid-Late Eocene uplift...
Image
Derived clasts collected from the middle Selsey and lower Becton formations...
in Use of high-resolution stratigraphy and derived lithoclasts to document structural inversion: a case study from the Paleogene, Isle of Wight, UK
> Journal of the Geological Society
Published: 22 March 2021
Fig. 5. Derived clasts collected from the middle Selsey and lower Becton formations in Whitecliff Bay. ( a , b , d ) Fragments of septarian concretions derived from Divisions A–C of the London Clay Formation; these have undergone secondary superficial fracture, cementation and are bored
Image
Composite section of Eocene–early Oligocene developed in the Isle of Wight ...
in Use of high-resolution stratigraphy and derived lithoclasts to document structural inversion: a case study from the Paleogene, Isle of Wight, UK
> Journal of the Geological Society
Published: 22 March 2021
do not have corresponding erosional surfaces. LCF, London Clay Formation; WF, Wittering Formation; EF, Earnley Formation; MFF, Marsh Farm Formation; SF, Selsey Formation; BCF, Barton Clay Formation; BF, Becton Formation; TBF, Totland Bay Formation; CBF, Colwell Bay Formation; RF, Ryde Formation; BLF
Image
Diagrammatic reconstructions of inversion events over the Sandown Anticline...
in Use of high-resolution stratigraphy and derived lithoclasts to document structural inversion: a case study from the Paleogene, Isle of Wight, UK
> Journal of the Geological Society
Published: 22 March 2021
, bored and transported in debris flows into a north–south-oriented offshore channel ( Fig. 6 ). ( b ) At the base of the Becton Sand Formation, immediately post-dating inversion H3, the White Chalk Group, Reading Formation and London Clay are exposed and clasts are derived into the lower part
Journal Article
Use of high-resolution stratigraphy and derived lithoclasts to document structural inversion: a case study from the Paleogene, Isle of Wight, UK
Journal: Journal of the Geological Society
Publisher: Geological Society of London
Published: 22 March 2021
Journal of the Geological Society (2021) 178 (4): jgs2020-156.
...Fig. 5. Derived clasts collected from the middle Selsey and lower Becton formations in Whitecliff Bay. ( a , b , d ) Fragments of septarian concretions derived from Divisions A–C of the London Clay Formation; these have undergone secondary superficial fracture, cementation and are bored...
FIGURES
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Sample locations and their stratigraphic context. The extent of sections se...
in Coupling of marine and continental oxygen isotope records during the Eocene-Oligocene transition
> GSA Bulletin
Published: 01 March 2016
. (2006 , supplement). Stratigraphic abbreviations: BAR—Bartonian; Becton S.—Becton Sand Formation; Bemb. Lst—Bembridge Limestone Formation; Hamst.—Hamstead; Hath.—Hatherwood Limestone; L.—lower; Lin.—Linstone Chine; Mbr—Member; S.B.—Seagrove Bay Member.
Image
Representative XRD traces of clay mineral assemblages from the Upper Eocene...
Published: 01 March 2006
F ig . 20. Representative XRD traces of clay mineral assemblages from the Upper Eocene and the Oligocene of the onshore UK: (a) Barton Clay Formation, (b) Becton Sand Formation, (c) Headon Hill Formation, (d) Headon Hill Formation, (e) Bembridge Limestone Formation, (f) Bouldnor Formation. S
Journal Article
Discussion on ’An analysis of Cotswold topography: insights into the landscape response to denudational isostasy': Journal , Vol. 165, 85–103
Journal: Journal of the Geological Society
Publisher: Geological Society of London
Published: 01 May 2009
Journal of the Geological Society (2009) 166 (3): 583.
... in the Selsey, Barton and Becton Formations in Whitecliff Bay, Isle of Wight, Gale et al . (1999 ) interpreted Mid–Late Eocene uplift of +500 m on the northern limb of the Sandown Pericline. This yields a mean Eocene uplift rate of 0.10 m ka −1 , almost identical, and well within the range of possibilities...
Journal Article
Human interference on soft cliff retreat: examples from Christchurch Bay, UK
Publisher: Geological Society of London
Published: 01 November 2012
Quarterly Journal of Engineering Geology and Hydrogeology (2012) 45 (4): 395–404.
... into the bay via small steep incised valleys called Chewton Bunny and Becton Bunny (immediately east of Highcliffe and west of Becton respectively). The bay formed in the late Devensian owing to rising sea levels, and comprises unlithified Palaeogene and Lower Headon Formation sand and clay deposits overlain...
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Three-dimensional sketches, looking south, illustrating in two steps the st...
in New interpretations of the Piney Creek thrust and associated Granite Ridge tear fault, northeastern Bighorn Mountains, Wyoming
> Rocky Mountain Geology
Published: 01 January 2003
the Granite Ridge tear fault. Secondary, fault-related anticlines are: B = Becton; WM = Walker Mountain; RG = Red Grade; NPC = North Piney Creek (of Furner, 1990 ). The Gulf Granite Ridge borehole is shown as it penetrated the Piney Creek thrust and bottomed in the Madison Formation in the footwall.
Journal Article
Current knowledge of the family Cardiliidae (Bivalvia, Mactroidea)
Journal: Journal of Paleontology
Publisher: Paleontological Society
Published: 01 March 2018
Journal of Paleontology (2018) 92 (2): 130–145.
...Figure 7 ( 1–5 ) Cardilia edwardsi n. sp. from the Becton Formation (late Bartonian) of Barton, Hampshire, UK; ( 1 ) holotype, NHMUK PI TB 14589, ( 2 ) paratype, one broken shell, NHMUK PI TB 14589, both from the Curry collection; ( 3, 5 ) NHMUK PI OR 73008; ( 4 ) NHMUK PI OR 73008, additional...
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Journal Article
Ichnofabrics containing Ophiomorpha: significance in shallow-water facies interpretation
Journal: Journal of the Geological Society
Publisher: Geological Society of London
Published: 01 February 1993
Journal of the Geological Society (1993) 150 (1): 149–164.
... (Figs 2,3) This ichnofabric is based on the Becton Sand Formation (Eocene) (Edwards & Freshney 1986; Bristow et al. 1991) at the Barton on Sea, Hampshire coastal section where the lower member is almost wholly of this ichnofabric. The Becton Sand follows by transition (Fig. 2C) the muddy Chama Sand...
Book Chapter
The Hampshire Basin and adjacent areas
Series: Geological Society, London, Special Reports
Publisher: Geological Society of London
Published: 01 January 2016
DOI: 10.1144/SR27.15
EISBN: 9781862397071
...-dominated interval (Becton Formation). These were designated ‘Barton Clay’ and ‘Headon Hill Sands’ by Prestwich (1846). Gardner et al. (1888) divided the ‘Barton Beds’ of Barton cliffs into Lower, Middle and Upper units, extending this classification to the sections at Alum Bay and Whitecliff Bay...
Journal Article
New interpretations of the Piney Creek thrust and associated Granite Ridge tear fault, northeastern Bighorn Mountains, Wyoming
Journal: Rocky Mountain Geology
Publisher: University of Wyoming
Published: 01 January 2003
Rocky Mountain Geology (2003) 38 (2): 205–235.
... the Granite Ridge tear fault. Secondary, fault-related anticlines are: B = Becton; WM = Walker Mountain; RG = Red Grade; NPC = North Piney Creek (of Furner, 1990 ). The Gulf Granite Ridge borehole is shown as it penetrated the Piney Creek thrust and bottomed in the Madison Formation in the footwall. ...
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A , Northeast-southwest, interpreted, unmigrated (stacked) seismic-reflect...
in New interpretations of the Piney Creek thrust and associated Granite Ridge tear fault, northeastern Bighorn Mountains, Wyoming
> Rocky Mountain Geology
Published: 01 January 2003
vertical exaggeration; this has been removed here by stretching the profile horizontally to ∼1:1 scale. Also, note that the Becton thrust extends upward at least into the Upper Cretaceous Mesaverde Formation. See Figure 2 for identification of formation symbols. (Profile courtesy of ConocoPhillips).
Journal Article
A review of hydrogeology and water resources on the Isle of Wight
Publisher: Geological Society of London
Published: 01 May 2011
Quarterly Journal of Engineering Geology and Hydrogeology (2011) 44 (2): 159–171.
... of the aquifer and the elevated iron in the groundwater ( Entec 2006 ). Small domestic supplies were obtained from the Hamstead Beds of the Bouldnor Formation, the Bembridge Limestone Formation, the Headon Hill Formation, and to a lesser extent the Becton Sands. Although there are no records of boreholes...
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Journal Article
Reactivation of landsliding following partial cliff stabilization at Barton-on-Sea, Hampshire, UK
Publisher: Geological Society of London
Published: 01 May 2011
Quarterly Journal of Engineering Geology and Hydrogeology (2011) 44 (2): 233–248.
... by Aerofilms Limited, now Simmons Aerofilms, who kindly gave permission for its reproduction. The Barton Clay dips at c . 0.75° ENE and allows the overlying Becton (formerly the Barton) Sand (Zone G and above) to occupy nearly the full height of the cliffs at the far eastern extent shown in Figure 1...
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Journal Article
Coupling of marine and continental oxygen isotope records during the Eocene-Oligocene transition
Journal: GSA Bulletin
Publisher: Geological Society of America
Published: 01 March 2016
GSA Bulletin (2016) 128 (3-4): 502–510.
.... (2006 , supplement). Stratigraphic abbreviations: BAR—Bartonian; Becton S.—Becton Sand Formation; Bemb. Lst—Bembridge Limestone Formation; Hamst.—Hamstead; Hath.—Hatherwood Limestone; L.—lower; Lin.—Linstone Chine; Mbr—Member; S.B.—Seagrove Bay Member. ...
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Journal Article
Using the AC/TC Ratio to Evaluate Fecal Inputs in a Karst Groundwater Basin
Published: 01 May 2009
Environmental & Engineering Geoscience (2009) 15 (2): 57–65.
... Hole Spring karst basin overlain on the Versailles, Kentucky, city limits. The Inner Bluegrass region consists of carbonate rocks of Middle and Upper Ordovician age, including the High Bridge Group, Lexington Limestone, and the Clays Ferry Formation, which were deposited along the Lexington...
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