Redox conditions in the Late Cretaceous Chalk Sea: the possible use of cerium anomalies as palaeoredox indicators in the Cenomanian and Turonian Chalk of England

Journal title

Acta Geologica Polonica




vol. 65


No 3


Divisions of PAS

Nauki o Ziemi


Komitet Nauk Geologicznych PAN ; Wydział Geologii UW


2015[2015.01.01 AD - 2015.12.31 AD]


ISSN 0001-5709


Wray (1996), Geochemical subdivision and correlation of clay - rich beds in Turonian sediments of northern Germany, Terra Nova, 8, 603, ; Sadekov (2014), Mg Ca composition of benthic foraminiferaMiliolacea asa new tool of paleoceanography ISSN, Paleoceanography, 29, 002654, ; Hönisch (2013), de The influence of salinity on Mg / Ca in planktic foraminifera Evidence from cultures , core - top sediments and complimentary δ Geochemica et Cosmochemica, Acta, 18, 121. ; Wray (1999), Identification and long - range correlation of bentonites in Turonian Coniacian ( Upper Cretaceous ) chalks of northwest Europe, Geological Magazine, 136. ; Ricken (1986), Diagenetic bedding : a model for limestonemarl alternations, Berlin pp, 210. ; Starmer (1995), Deformation of the Upper Cretaceous Chalk at Selwicks Bay , Flamborough Head Yorkshire : its significance in the structural evolution of north - east England and the North Sea Basin Proceedings of the Yorkshire, Geological Society, 50, 213. ; Jarvis (2006), The Santonian Campanian phosphatic chalks of England and France Proceedings of the, Geologists Association, 117. ; Starmer (2008), The concentration of folding and faulting in the Chalk at Staple Newk ( Scale Nab ) near Flamborough , East Yorkshire Proceedings of the Yorkshire, Geological Society, 57, 95. ; Bower (1910), The zones of the Lower Chalk of Lincolnshire Proceedings of the, Geologists Association, 11, 333, ; Wood (1978), Lithostratigraphical classification of the Chalk in North Yorkshire , Humberside and Lincolnshire Proceedings of the Yorkshire, Geological Society, 42, 263. ; Jarvis (1980), Geochemistry of phosphatic chalks and hard - grounds from the Santonian to early Campanian ( Cretaceous ) of northern France of the, Journal Geological Society, 137. ; Jeans (2013), Calcite cements and the stratigraphical significance of the marine δ C carbonate reference curve for the Upper Cretaceous Chalk of England, Acta Geologica Polonica, 62, 173. ; Jeans (1968), The origin of the montmorillonite of the European Chalk with special reference to the Lower Chalk of England, Clay Minerals, 7, 311, ; Wray (1998), Distinction between detrital and volcanogenic clay - rich beds in Turonian Coniacian chalks of eastern England Proceedings of the Yorkshire, Geological Society, 52, 95. ; Jeans (1967), The Cenomanian Rocks of England Unpublished PhD thesis , University of Cambridge, pp, 156. ; Jeans (1980), Early submarine lithification in the Red Chalk and Lower Chalk of eastern England ; a bacterial control model and its implications Proceedings of the Yorkshire, Geological Society, 43. ; Perrin (1964), The analysis of chalk and other limestones for geochemical studies pp In : Analysis of Calcareous Materials Monograph of the Society of Chemical Industries ( London ), pp, 18, 207. ; Yu (2007), Ca in planktonic foraminifera as a proxy for surface seawater pH, Paleoceanography, 22, 2202, ; Jeans (2014), Regional hardening of Upper Cretaceous Chalk in eastern England UK : trace element and stable isotope patterns in the Upper Cenomanian and Turonian Chalk and their significance, Acta Geologica Polonica, 64, 419, ; Siesser (1977), Chemical composition of calcareous nannofossils, South African Journal of Science, 73. ; Starmer (2013), Folding and faulting in the Chalk at Dykes End , Bridlington Bay , East Yorkshire , resulting from reactivations of the Flamborough Head Fault Zone Proceedings of the Yorkshire, Geological Society, 59, 195. ; Westphal (2003), Limestone - marl alternations : a warm water phenomena, Geology, 31, 263,<0263:LMAAWW>2.0.CO;2 ; Hu (2012), Geochemical and stable isotope patterns of calcite cementation in the Upper Cretaceous Chalk UK : Direct evidence from calcite - filled vugs in brachiopods, Acta Geologica Polonica, 62, 143, ; Hu (2014), A novel approach to the study of the development of the Chalk s smectite assemblage, Clay Minerals, 49, 277, ; Voigt (2008), The Cenomanian Turonian of the Wunstorf Section ( North Germany global stratigraphic reference section and new orbital time scale of Oceanic Anoxic Event on Stratigraphy, Newsletters, 2. ; Yu (2008), A strong temperature effect on U / Ca in planktonic foraminiferal carbonates Geochemica et Cosmochemica ISSN, Acta, 72, 4988, ; German (1989), Rare earth elements in Saanich Inlet , British Columbia , a seasonally anoxic basin, Geochimica Cosmochimica Acta, 53, 2561, ; Mortyn (2005), An evaluation of controls on planktonic foraminiferal Sr / Ca : comparison of water column and core top data from a North Atlantic transect Geochemistry, Geophysics Geosystems, 6, ; Voigt (2003), Cenomanian palaeotemperatures derived from the oxygen isotopic composition of brachiopods and belemnites : evaluation of Cretaceous palaeotemperature proxies, International Journal of Earth Sciences Geologische Rundschau, 92. ; German (1990), Application of the Ce anomaly as a paleoredox indicator : the ground rules, Paleoceanography, 5, 823, ; Blumenberg (2012), Imbalanced nutrients as triggers for black shale formation in a shallow shelf setting during the OAE, Biogeosciences, 9, 2, ; Gale (1990), Milankovitch scale for Cenomanian time, Terra Nova, 1, 420, ; Jeans (2014), Clay mineral - grain size - calcite cement relationships in Upper Cretaceous Chalk UK : a preliminary investigation, Clay Minerals, 49, 299, ; Wray (2014), Chemostratigraphy and provenance of clays and other noncarbonated minerals in chalks of Campanian age ( Upper Cretaceous ) from Sussex , southern England, Clay Minerals, 49, 327, ; Weir (1965), The mineralogy of some Upper Chalk samples from the Arundel area Sussex, Clay Minerals, 6, 97, ; Henderson (1981), Application of intrinsic Ge detectors to the instrumental neutron activation analysis for rare earth elements in rocks and minerals, Journal of Radioanalytical Chemistry, 67. ; Baar (1988), de and van Gaas Rare earth element distributions in anoxic waters of the Cariaco Trench Geochimica et Cosmochemica, Acta, 52, 1203. ; Gale (1999), Orbital tuning of Cenomanian marly chalk successions : towards a Milankovitch timescale for the Late Cretaceous Philosophical Transactions of the London Series A, Royal Society, 357. ; Westphal (2010), An assessment of the suitability of individual rhythmic carbonate successions for astrochronological application Earth -, Science Reviews, 99.