Details

Title

High-resolution Campanian–Maastrichtian carbon and oxygen stable isotopes of bulk-rock and skeletal components: palaeoceanographic and palaeoenvironmental implications for the Boreal shelf sea

Journal title

Acta Geologica Polonica

Yearbook

2017

Volume

vol. 67

Issue

No 1

Authors

Divisions of PAS

Nauki o Ziemi

Publisher

Komitet Nauk Geologicznych PAN ; Wydział Geologii UW

Date

2017

Identifier

DOI: 10.1515/agp-2017-0004 ; ISSN 0001-5709

Source

Acta Geologica Polonica; 2017; vol. 67; No 1

References

Niebuhr (2011), Integrated stratigraphy of the Kronsmoor section ( northern Germany ) a reference point for the base of the Maastrichtian in the Boreal Realm MARKUS WILMSEN AND BIRGIT NIEBUHR O Dor The constraints on cephalopods : why squids aren t fish of, Acta Geologica Polonica Canadian Journal Zoology, 61, 193. ; Gillikin (2006), and Stable carbon isotopic composition of Mytilus edulis shells : relation to metabolism salinity d and phytoplankton Geochemistry, Organic, 13, 37. ; Huber (2002), Deep - sea palaeotemperature record of extreme warmth dur - ing the Cretaceous, Geology, 30, 123, doi.org/10.1130/0091-7613(2002)030<0123:DSPROE>2.0.CO;2 ; Thibault (2015), Upper Campanian Maastrichtian chronostratigraphy of the Skælskør - core Denmark : correlation at the basinal and global scale and implications for changes in sea - surface temperatures, Lethaia, 1, 549, doi.org/10.1111/let.12128 ; McConnaughey (2008), Carbon iso - topes in mollusk shell carbonates Geo -, Marine Letters, 28, 287, doi.org/10.1007/s00367-008-0116-4 ; Stevens (2015), and Mutterlose Biological and environmental signals recorded in shells of Argonauta argo ( Cephalopoda Octobrachia ) from the Sea of Japan, Marine Biology, 015, 2750, doi.org/10.1007/s00227 ; Wierzbowski (2009), Stable iso - topes elemental distribution and growth rings of bel - emnopsid belemnite rostra : proxies for belemnite life habitat, Palaios, 24, 377, doi.org/10.2110/palo.2008.p08-101r ; Miller (1999), and Does ice drive early Maastrichtian eustasy, Geology, 27, 783, doi.org/10.1130/0091-7613(1999)027<0783:DIDEME>2.3.CO;2 ; Pirrie (1990), Diagenesis of Inoc - eramus and Late Cretaceous palaeoenvironmental geochemistry : a case study from James Ross Island Antarctica, Palaios, 5, 336, doi.org/10.2307/3514889 ; Sælen (1989), Diagenesis and construction of the belem - nite rostrum, Palaeontology, 32, 765. ; Wilmsen (2005), The Ceno - manian of northern Germany : facies analysis of a transgressive biosedimentary system, Facies, 51, 242, doi.org/10.1007/s10347-005-0058-5 ; Jiménez (2006), New petrographic and geochemical insights on diagen - esis and palaeoenvironmental stress in Late Cretaceous HIGH - RESOLUTION CAMPANIAN - MAASTRICHTIAN CARBON AND OXYGEN STABLE ISOTOPES inoceramid shells from the James Ross Basin Antarc - tica, Antarctic Science, 18, 357. ; Remin (2012), The Belemnella stratigraphy of the Cam - panian Maastrichtian boundary ; a new methodological and taxonomic approach, Acta Geologica Polonica, 62, 495, doi.org/10.2478/v10263-012-0028-5 ; Mitchell (2005), Eight belemnite biohorizons in the Cenomanian of northwest Europe and their impor - tance, Geological Journal, 40, 363, doi.org/10.1002/gj.1016 ; Schootbrugge (2000), van de and Burns Paleoceanographic changes during the early Cretaceous ( Valanginian - Hauterivian ) : evi - dence from oxygen and carbon stable isotopes Earth and Planetary, Science Letters, 181. ; Niebuhr (2005), Geochemistry and time - series analyses of orbitally forced Upper Cretaceous marl - limestone rhythmites ( Lehrte West Syncline northern Germany ), Geological Magazine, 142. ; Moriya (2003), and Demersal habitat of Late Creta - ceous ammonoids : Evidence from oxygen isotopes for the Campanian ( Late Cretaceous ) northwestern Pacific thermal structure, Geology, 31, 167, doi.org/10.1130/0091-7613(2003)031<0167:DHOLCA>2.0.CO;2 ; Carpenter (1995), d and d values of modern brachiopod shells, Geochimica et Cosmochimica Acta, 18, 3749, doi.org/10.1016/0016-7037(95)00291-7 ; Engelke (2016), and The benthic macrofauna from the lower Maastrichtian chalk of Kronsmoor ( northern Ger - many Saturn quarry ) : taxonomic outline and palaeoeco - logic implications, Acta Geologica Polonica, 66, 671, doi.org/10.1515/agp-2016-0036 ; Jenkyns (2004), and Sinninghe High temperatures in the Late Cre - tatceous Arctic Ocean, Nature, 432. ; Veizer (1999), God - deris and Strauss d and d evolution of Phanerozoic seawater, Chemical Geology, 87, 161. ; Voigt (2000), Stable oxygen and carbon isotopes from brachiopods of southern England and northwestern Germany : estimation of Upper Turonian palaeotem - peratures, Geological Magazine, 137. ; Ullmann (2015), Chemical and isotopic architecture of the belemnite rostrum, Geochimica et Cosmochimica Acta, 159. ; Christensen (1997), Palaeobiogeography and migra - tion in the Late Cretaceous belemnite family Belem - nitellidae, Acta Palaeontologica Polonica, 42, 457. ; Spaeth (1971), Some aspects of isotopic composition of belemnites and related paleo - temperatures, Geological Society of America Bulletin, 82, 3139, doi.org/10.1130/0016-7606(1971)82[3139:SAOICO]2.0.CO;2 ; Rexfort (2006), and Stable isotope records from Sepia officinalis a key to understanding the ecology of belemnites ? Earth and Planetary, Science Letters, 247, 212. ; Doyle (1993), Belemnite battle - fields, Lethaia, 26, 65, doi.org/10.1111/j.1502-3931.1993.tb01513.x ; Adlis (1988), and McLer - ran Isotope stratigraphy and paleodepth changes of Pennsylvanian cyclical sedimentary depos - its, Palaios, 3, 487, doi.org/10.2307/3514722 ; Picard (1998), Cap - petta d values of coexist - ing brachiopods and fish : Temperature differences and estimates of paleo - water depths, Geology, 18, 975, doi.org/10.1130/0091-7613(1998)026<0975:OVOCBA>2.3.CO;2 ; Nerot (2012), Stable isotope variations in benthic filter feeders across a large depth gradient on the continental shelf Estuarine Coastal and Shelf, Science, 96, 228. ; Klug (2010), First record of a belemnite preserved with beak arms and ink sac from the Nuspligen Lithographic Limestone ( Kimmeridgian SW Germany ), Lethaia, 43, 445, doi.org/10.1111/j.1502-3931.2009.00203.x ; Jenkyns (1994), Car - bon - and oxygen - isotope stratigraphy of the English Chalk and Italian Scaglia and its palaeoclimatic sig - nificance, Geological Magazine, 131. ; Müller (1936), Beiträge zur Anatomie der Belem - noidea Neue Serie, Nova Acta Leopoldina, 4, 159. ; Westermann (1973), Strength of concave septa and depth limits of fossil cephalopods, Lethaia, 6, 383, doi.org/10.1111/j.1502-3931.1973.tb01205.x ; Huber (1998), Tropical paradise at the Cretaceous poles, Science, 282. ; Jago (2002), Diagnostic criteria for re - construction of tidal continental shelf regimes : chang - ing the paradigm, Marine Geology, 191. ; Marshall (1992), Climatic and oceanographic isotope signals from the carbonate rock record and their pres - ervation, Geological Magazine, 129. ; Christensen (1990), a Upper Cretaceous belemnite stra - tigraphy of Europe, Cretaceous Research, 11, 371, doi.org/10.1016/S0195-6671(05)80048-5 ; Linnert (2016), and The impact of the Maastrichtian cooling on the ma - rine nutrient regime Evidence from mid - latitudinal cal - careous nannofossils, Paleoceanography, 31, 694, doi.org/10.1002/2015PA002916 ; Jeans (2014), Regional hardening of Upper Cretaceous Chalk in eastern England UK : trace element and stable isotope pattern in the Upper Cenomanian and Turonian Chalk and their significance, Acta Geologica Polonica, 64, 419, doi.org/10.2478/agp-2014-0023 ; Brand (1980), Chemical diagenesis of a multicomponent carbonate system : Trace elements, Journal of Sedimentary Petrology, 50, 1219. ; Schönfeld (1991), Biostratigraphical correlation of the Campanian Maastrichtian bound - ary : Lägerdorf Hemmoor ( northwestern Germany ) DSDP Sites eastern North At - lantic ) with palaeobiogeographical and palaeoceano - graphical implications, Geological Magazine, 548, 549. ; Parkinson (2005), Shell structure patterns and trends of oxygen and carbon stable isotopes in modern brachiopod shells, Chemical Geology, 219. ; Barrera (1999), Evolution of late Cam - panian Maastrichtian marine climates and oceans In : Evolution of the Cretaceous ocean climate system of America, Geological Society Special Papers, 332. ; Savin (1977), The history of the Earth s surface tem - perature during the past million years Annual Review of Earth and, Planetary Sciences, 5, 319, doi.org/10.1146/annurev.ea.05.050177.001535 ; Stevens (1964), Faunal realms in Jurassic and Creta - ceous belemnites, Geological Magazine, 100, 481, doi.org/10.1017/S0016756800059033 ; Voigt (2003), Cenomanian palaeotemperatures derived from the oxygen isotopic composition of brachiopods and belemnites : evaluation of Cretaceous palaeotempera - ture proxies ( Geologische Rundschau ), International Journal of Earth Sciences, 92. ; Niebuhr (2002), Stable isotope and trace element geochemistry of Upper Cretaceous carbonates and belemnite rostra ( Middle Campanian north Germany ), Geobios, 35, 51, doi.org/10.1016/S0016-6995(02)00009-8 ; Jelby (2014), The lower Maastrichtian Hvid - skud succession Møns Klint Denmark : calcareous nannofossil biostratigraphy carbon isotope stratigra - phy and bulk and brachiopod oxygen isotopes Bulletin of the Geological, Society of Denmark, 62, 89. ; Steuber (1999), Isotopic and chemical intra - shell varia - tions in low - Mg calcite of rudist bivalves ( Mollusca - Hippuritacea ) : disequilibrium fractionations and late Cretaceous seasonality, International Journal of Earth Sciences, 88, 551, doi.org/10.1007/s005310050284 ; Jeletzky (1941), Über die Systematik und die Phylogenie der Belemniten der Oberen Kreide Doklady Akademii iIn Ukrainian and Germann, Nauk SSSR, 2, 23. ; Podlaha (1998), Preserva - tion of d and d in belemnite rostra from the Juras - sic / Early Cretaceous successions, American Journal of Science, 18, 298.
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