Carbonate microfacies and chemostratigraphy of a late Aptian-early Albian marine distal section from the primitive South Atlantic (SE Brazilian continental margin): Record of global ocean-climate changes?
暂无分享,去创建一个
[1] John M. McArthur,et al. Strontium isotope stratigraphy , 2012 .
[2] R. Rodrigues,et al. A FORMAÇÃO MACAÉ, BACIA DE CAMPOS. BRASIL: SUA EVOLUÇÃO NO CONTEXTO DA HISTORIA INICIAL DO ATLÂNTICO SUL , 2017 .
[3] C. Canet,et al. Record of upper Aptian–lower Albian environmental perturbation in northeastern Mexico , 2016 .
[4] Juliana Okubo,et al. CARACTERIZAÇÃO SEDIMENTOLÓGICA DOS CARBONATOS ALBIANOS DO RESERVATÓRIO QUISSAMÃ NA PORÇÃO MERIDIONAL DA BACIA DE CAMPOS , 2016 .
[5] T. Steuber,et al. Large igneous provinces and organic carbon burial: Controls on global temperature and continental weathering during the Early Cretaceous , 2015 .
[6] L. Warren,et al. Depositional, diagenetic and stratigraphic aspects of Macaé Group carbonates (Albian): example from an oilfield from Campos Basin , 2015 .
[7] M. Sprovieri,et al. High-resolution chemostratigraphy of the late Aptian–early Albian oceanic anoxic event (OAE 1b) from the Poggio le Guaine section (Umbria–Marche Basin, central Italy) , 2015 .
[8] W. Davis,et al. Mid-Cretaceous High Arctic stratigraphy, climate, and Oceanic Anoxic Events , 2015 .
[9] T. Bontognali,et al. Methanogenesis produces strong 13C enrichment in stromatolites of Lagoa Salgada, Brazil: a modern analogue for Palaeo‐/Neoproterozoic stromatolites? , 2015, Geobiology.
[10] M. Hart,et al. Paleoecology of Cretaceous Foraminifera: Examples from the Atlantic Ocean and Gulf of Mexico Region , 2015 .
[11] P. Bown,et al. Integrated stratigraphy across the Aptian/Albian boundary at Col de Pré-Guittard (southeast France): A candidate Global Boundary Stratotype Section , 2014 .
[12] M. Arai. Aptian/Albian (Early Cretaceous) paleogeography of the South Atlantic: a paleontological perspective , 2014 .
[13] A. Sial,et al. Carbon and oxygen isotopic variations in early Albian limestone facies of the Mural Formation, Pitaycachi section, northeastern Sonora, Mexico , 2013 .
[14] A. Sial,et al. APTIAN–ALBIAN PLANKTIC FORAMINIFERA FROM DSDP SITE 364 (OFFSHORE ANGOLA): BIOSTRATIGRAPHY, PALEOECOLOGY, AND PALEOCEANOGRAPHIC SIGNIFICANCE , 2013 .
[15] D. Reháková,et al. Early Cretaceous sedimentary evolution of a pelagic basin margin (the Manín Unit, central Western Carpathians, Slovakia) , 2012 .
[16] K. Föllmi. Early Cretaceous life, climate and anoxia , 2012 .
[17] Fernando Núñez-Useche,et al. Microfacies analysis and paleoenvironmental dynamic of the Barremian-Albian interval in Sierra del Rosario, eastern Durango state, Mexico , 2012 .
[18] A. Gale,et al. Abrupt planktic foraminiferal turnover across the Niveau Kilian at Col de Pré-Guittard (Vocontian Basin, southeast France): new criteria for defining the Aptian/Albian boundary , 2012 .
[19] James G. Ogg,et al. The Geologic Time Scale 2012 , 2012 .
[20] C. Reimann,et al. Chemical Elements in the Environment: Factsheets for the Geochemist and Environmental Scientist , 2011 .
[21] M. Kučera,et al. Paleotemperature and paleosalinity inferences and chemostratigraphy across the Aptian/Albian boundary in the subtropical North Atlantic. , 2011 .
[22] Roeland van Gilst,et al. The sedimentary expression of oceanic anoxic event 1b in the North Atlantic , 2011 .
[23] S. Bernasconi,et al. Dolomite formation within the methanogenic zone induced by tectonically-driven fluids in the Peru accretionary prism , 2011 .
[24] P. Bown,et al. The uppermost Middle and Upper Albian succession at the Col de Palluel, Hautes-Alpes, France: an integrated study (ammonites, inoceramid bivalves, planktonic foraminifera, nannofossils, geochemistry, stable oxygen and carbon isotopes, cyclostratigraphy) , 2011 .
[25] R. Leckie,et al. PLANKTIC FORAMINIFERAL SPECIES TURNOVER ACROSS DEEP-SEA APTIAN/ ALBIAN BOUNDARY SECTIONS , 2011 .
[26] E. Jaillard,et al. Stratigraphy of the Hameima and lower Fahdene Formations in the Tadjerouine area (Northern Tunisia) , 2010 .
[27] H. Jenkyns. Geochemistry of oceanic anoxic events , 2010 .
[28] A. Huc,et al. Carbon-isotope stratigraphy, biostratigraphy and organic matter distribution in the Aptian - Lower Albian successions of southwest Iran (Dariyan and Kazhdumi formations) , 2010 .
[29] Garry D. Jones,et al. THE USE OF PLANKTONIC MICROFOSSILS TO RESOLVE CHRONOSTRATIGRAPHIC, TECTONIC, AND PALEOGEOGRAPHIC UNCERTAINTIES IN THE LOWER CRETACEOUS OF EASTERN SONORA, NW MEXICO , 2009 .
[30] D. Watkins,et al. Elevated primary productivity of calcareous nannoplankton associated with ocean anoxic event 1b during the Aptian/Albian transition (Early Cretaceous) , 2008 .
[31] T. Lawton,et al. Upper Aptian-Lower Albian Mural Formation: stratigraphy, biostratigraphy and depositional cycles on the Sonoran shelf, northern Mexico , 2008 .
[32] H. Jenkyns,et al. Cretaceous oceanic anoxic events: causes and consequences , 2007 .
[33] K. Föllmi,et al. Interactions between environmental change and shallow water carbonate buildup along the northern Tethyan margin and their impact on the Early Cretaceous carbon isotope record , 2006 .
[34] J. Banner. Radiogenic isotopes: systematics and applications to earth surface processes and chemical stratigraphy , 2004 .
[35] C. Hemleben,et al. High-resolution carbon isotope records of the Aptian to Lower Albian from SE France and the Mazagan Plateau (DSDP Site 545): a stratigraphic tool for paleoceanographic and paleobiologic reconstruction , 2004 .
[36] James G. Ogg,et al. A Geologic Time Scale 2004: CONCEPTS AND METHODS , 2004 .
[37] R. Leckie,et al. Oceanic anoxic events and plankton evolution: Biotic response to tectonic forcing during the mid-Cretaceous , 2002 .
[38] B. Ferré,et al. Rovearinids (stemless crinoids) in the Albian carbonates of the offshore Santos Basin, southeastern Brazil: stratigraphic, palaeobiogeographic and palaeoceanographic significance , 2001 .
[39] C. E. Jones,et al. Seawater strontium isotopes, oceanic anoxic events, and seafloor hydrothermal activity in the Jurassic and Cretaceous , 2001, American Journal of Science.
[40] R. Norris,et al. Increased thermohaline stratification as a possible cause for an ocean anoxic event in the Cretaceous period , 2001, Nature.
[41] D. Dias-Brito. Global stratigraphy, palaeobiogeography and palaeoecology of Albian–Maastrichtian pithonellid calcispheres: impact on Tethys configuration , 2000 .
[42] L. Kah. Depositional δ18O Signatures in Proterozoic Dolostones: Constraints on Seawater Chemistry and Early Diagenesis , 2000 .
[43] C. Hemleben,et al. Correlating environmental changes during early Albian oceanic anoxic event 1B using benthic foraminiferal paleoecology , 1999 .
[44] H. Strauss,et al. 87Sr/86Sr, δ13C and δ18O evolution of Phanerozoic seawater , 1999 .
[45] Charles K. Paull,et al. Mid-Cretaceous strontium-isotope stratigraphy of deep-sea sections , 1997 .
[46] R. Antunes. BIOZONAS DE NANOFOSSEIS DO CRETACEO DA MARGEM CONTINENTAL BRASILEIRA : PROBLEMAS E POSSIVEIS SOLUCOES , 1996 .
[47] J. Banner. Application of the trace element and isotope geochemistry of strontium to studies of carbonate diagenesis , 1995 .
[48] J. Edmond,et al. Controls over the strontium isotope composition of river water , 1992 .
[49] E. Koutsoukos. Late aptian to maastrichtian foraminiferal biogeography and palaeoceanography of the Sergipe basin, Brazil , 1992 .
[50] J. Maxwell,et al. The upper Aptian-Albian succession of the Sergipe basin, Brazil: An integrated paleoenvironmental assessment , 1991 .
[51] J. Banner,et al. Calculation of simultaneous isotopic and trace element variations during water-rock interaction with applications to carbonate diagenesis , 1990 .
[52] D. Welte,et al. Petroleum Formation and Occurrence , 1989 .
[53] D. Dias-Brito,et al. The Macaé Formation, Campos basin, Brazil: Its evolution in the context of the initial history of the South Atlantica , 1988 .
[54] Renato Oscar Kowsmann,et al. INTERPRETAÇÃO GENÉTICA DAS SEQUÊNCIAS ESTRATIGRÁFICAS DAS BACIAS DA MARGEM CONTINENTAL BRASILEIRA , 1987 .
[55] F. Magniez-Jannin. CRETACEOUS STRATIGRAPHIC AND PALEOENVIRONMENTAL DATA FROM THE SOUTH ATLANTIC (FORAMINIFERS AND NANNOPLANKTON) , 1987 .
[56] D. Dias-Brito. A BACIA DE CAMPOS NO MESOCRETÁCEO: UMA CONTRIBUIÇÃO À PALEOCEANOGRAFIA DO ATLÂNTICO SUL PRIMITIVO , 1987 .
[57] Eduardo A. M. Koutsoukos,et al. PALEOBATIMETRIA DA MARGEM CONTINENTAL DO BRASIL DURANTE O ALBIANO , 1987 .
[58] R. Azevedo,et al. GEO-HISTÓRIA DA BACIA DE CAMPOS, BRASIL: DO ALBIANO AO MAASTRICHTIANO , 1987 .
[59] R. Azevedo,et al. Bioestratigrafia do cretaceo marinho da bacia de campos, brasil , 1987 .
[60] F. Magniez-Jannin,et al. CRETACEOUS ANOXIC EVENTS IN THE SOUTH ATLANTIC , 1987 .
[61] I. D. Klasz,et al. Etude systématique des foraminifères du Danien de la Formation des Madeleines de Dakar (Sénégal) , 1987 .
[62] M. Renard. Pelagic carbonate chemostratigraphy (Sr, Mg, 18O, 13C) , 1986 .
[63] J. F. Longoria. Cretaceous biochronology from the Gulf of Mexico region based on planktonic microfossils , 1984 .
[64] I. P. Silva,et al. Planktonic Foraminifers and Calpionellids from Gulf of Mexico Sites, Deep Sea Drilling Project Leg 77 , 1984 .
[65] H. A. Ojeda. Structural Framework, Stratigraphy, and Evolution of Brazilian Marginal Basins , 1982 .
[66] M. Moullade,et al. Le probleme des relations de l'Atlantique Sud et de l'Atlantique Central au Cretace moyen; nouvelles donnees microfauniques d'apres les forages D.S.D.P , 1982 .
[67] J. Veizer,et al. Chemical Diagenesis of a Multicomponent Carbonate System--1: Trace Elements , 1980 .
[68] E. Jäger. The Rb—Sr Method , 1979 .
[69] J. Veizer. Simulation of limestone diagenesis—a model based on strontium depletion: Discussion , 1978 .
[70] W. Ryan,et al. Angola Continental MarginSites 364 and 365 , 1978 .
[71] M. Caron. Cretaceous Planktonic Foraminifers from DSDP Leg 40, Southeastern Atlantic Ocean , 1978 .
[72] D. Morrow,et al. Simulation of limestone diagenesis — a model based on strontium depletion , 1978 .
[73] J. D. Hudson. Stable isotopes and limestone lithification , 1977, Journal of the Geological Society.