Large environmental disturbances caused by magmatic activity during the Late Devonian Hangenberg Crisis

[1]  K. Sobień,et al.  The Devonian/Carboniferous boundary interval in Poland: multidisciplinary studies in pelagic (Holy Cross Mountains and Sudetes) and ramp (Western Pomerania) successions , 2020, Palaeobiodiversity and Palaeoenvironments.

[2]  G. Racki A volcanic scenario for the Frasnian–Famennian major biotic crisis and other Late Devonian global changes: More answers than questions? , 2020 .

[3]  T. Algeo,et al.  A re-assessment of elemental proxies for paleoredox analysis , 2020, Chemical Geology.

[4]  H. Schönlaub,et al.  Volcanic related methylmercury poisoning as the possible driver of the end-Devonian Mass Extinction , 2020, Scientific Reports.

[5]  C. Corradini,et al.  The Devonian–Carboniferous boundary in the Carnic Alps (Austria and Italy) , 2020, Palaeobiodiversity and Palaeoenvironments.

[6]  R. Garcia,et al.  Causes and Climatic Consequences of the Impact Winter at the Cretaceous‐Paleogene Boundary , 2020, Geophysical Research Letters.

[7]  K. Föllmi,et al.  Effect of Intense Weathering and Postdepositional Degradation of Organic Matter on Hg/TOC Proxy in Organic‐rich Sediments and its Implicationsfor Deep‐Time Investigations , 2020, Geochemistry, Geophysics, Geosystems.

[8]  N. Planavsky,et al.  Correlated molybdenum and uranium isotope signatures in modern anoxic sediments: Implications for their use as paleo-redox proxy , 2020 .

[9]  H. Nishi,et al.  Variations in trace elements, isotopes, and organic geochemistry during the Hangenberg Crisis, Devonian–Carboniferous transition, northeastern Vietnam , 2020, Island Arc.

[10]  Yigang Xu,et al.  Establishing the link between Permian volcanism and biodiversity changes: Insights from geochemical proxies , 2019, Gondwana Research.

[11]  C. Venturini,et al.  Birth and evolution of the Paleocarnic Chain in the Southern Alps: a review , 2019, International Journal of Earth Sciences.

[12]  Phoebe A. Cohen,et al.  Biogeochemical controls on black shale deposition during the Frasnian-Famennian biotic crisis in the Illinois and Appalachian Basins, USA, inferred from stable isotopes of nitrogen and carbon , 2019, Palaeogeography, Palaeoclimatology, Palaeoecology.

[13]  P. Wignall,et al.  Interpreting the Carbon Isotope Record of Mass Extinctions , 2019, Elements.

[14]  Wenkun Qie,et al.  Mercury spikes at the Devonian-Carboniferous boundary in the eastern part of the Rhenohercynian Zone (central Europe) and in the South China Block , 2019, Palaeogeography, Palaeoclimatology, Palaeoecology.

[15]  H. Sanei,et al.  Volcanic mercury and mutagenesis in land plants during the end-Triassic mass extinction , 2019, Science Advances.

[16]  S. Grasby,et al.  Mercury as a proxy for volcanic emissions in the geologic record , 2019, Earth-Science Reviews.

[17]  Ø. Hammer,et al.  Are Early Triassic extinction events associated with mercury anomalies? A reassessment of the Smithian/Spathian boundary extinction , 2019, Earth-Science Reviews.

[18]  L. D. Yarbrough,et al.  Stratigraphy , 2014 .

[19]  Shuai Yang Reconstruction of Local and Global Marine Paleoredox Conditions during Deposition of the Devonian-Mississippian Exshaw Formation (Black Shale Member) and the Evaluation of Hydrocarbon Maturation Effects , 2019 .

[20]  C. März,et al.  Pyrite oxidation in shales: Implications for palaeo-redox proxies based on geochemical and SEM-EDX evidence , 2019, Sedimentary Geology.

[21]  Cin-Ty A. Lee,et al.  Does volcanism cause warming or cooling? , 2019, Geology.

[22]  K. Föllmi,et al.  Pulses of enhanced continental weathering associated with multiple Late Devonian climate perturbations: Evidence from osmium-isotope compositions , 2019, Palaeogeography, Palaeoclimatology, Palaeoecology.

[23]  W. McClelland,et al.  Age, geochemistry, and significance of Devonian felsic magmatism in the North Slope subterrane, Yukon, Canadian Arctic , 2019, Circum-Arctic Structural Events: Tectonic Evolution of the Arctic Margins and Trans-Arctic Links with Adjacent Orogens.

[24]  M. Clapham,et al.  Flood Basalts and Mass Extinctions , 2019, Annual Review of Earth and Planetary Sciences.

[25]  Qihang Wu,et al.  Geochemical Evidence of First Forestation in the Southernmost Euramerica from Upper Devonian (Famennian) Black Shales , 2019, Scientific Reports.

[26]  R. Müller,et al.  Global kinematics of tectonic plates and subduction zones since the late Paleozoic Era , 2019, Geoscience Frontiers.

[27]  S. Carmichael,et al.  The Devonian-Carboniferous boundary in Vietnam: Sustained ocean anoxia with a volcanic trigger for the Hangenberg Crisis? , 2019, Global and Planetary Change.

[28]  G. Helz,et al.  Precipitation of molybdenum from euxinic waters and the role of organic matter , 2019, Chemical Geology.

[29]  J. Sláma,et al.  Reply to Comment by M.F. Pereira, J.B. Silva and C. Gama on “Baltic provenance of top-Famennian siliciclastic material of the northern Rhenish Massif, Rhenohercynian zone of the Variscan orogen, by Koltonik et al., International Journal of Earth Sciences (2018) 107:2645–2669” , 2019, International Journal of Earth Sciences.

[30]  S. Planke,et al.  Mercury anomalies across the Palaeocene–Eocene Thermal Maximum , 2019, Climate of the Past.

[31]  I. Jarvis,et al.  Does large igneous province volcanism always perturb the mercury cycle? Comparing the records of Oceanic Anoxic Event 2 and the end-Cretaceous to other Mesozoic events , 2018, American Journal of Science.

[32]  M. Droser,et al.  A stable and productive marine microbial community was sustained through the end‐Devonian Hangenberg Crisis within the Cleveland Shale of the Appalachian Basin, United States , 2018, Geobiology.

[33]  L. Marynowski,et al.  Redox conditions, productivity, and volcanic input during deposition of uppermost Jurassic and Lower Cretaceous organic-rich siltstones in Spitsbergen, Norway , 2018, Cretaceous Research.

[34]  A. Derkowski,et al.  Binding of heavy metals by oxidised kerogen in (palaeo)weathered black shales , 2018, Chemical Geology.

[35]  J. Sláma,et al.  Baltic provenance of top-Famennian siliciclastic material of the northern Rhenish Massif, Rhenohercynian zone of the Variscan orogen , 2018, International Journal of Earth Sciences.

[36]  L. Marynowski,et al.  Anomalous Upper Devonian mercury enrichments: comparison of Inductively Coupled Plasma – Mass Spectrometry (ICP-MS) and Atomic Absorption Spectrometry (AAS) analytical data , 2018, Geological Quarterly.

[37]  P. Wignall,et al.  Mercury enrichments and the Frasnian-Famennian biotic crisis: A volcanic trigger proved? , 2018 .

[38]  V. Kanický,et al.  Fine-scale LA-ICP-MS study of redox oscillations and REEY cycling during the latest Devonian Hangenberg Crisis (Moravian Karst, Czech Republic) , 2017 .

[39]  A. C. Fernandes,et al.  Benthic anoxia, intermittent photic zone euxinia and elevated productivity during deposition of the Lower Permian, post-glacial fossiliferous black shales of the Paraná Basin, Brazil , 2017 .

[40]  S. Planke,et al.  Gondwana Large Igneous Provinces: plate reconstructions, volcanic basins and sill volumes , 2017, Special Publications.

[41]  T. Torsvik,et al.  The Palaeozoic Variscan oceans revisited , 2017 .

[42]  T. Mather,et al.  Mercury evidence for pulsed volcanism during the end-Triassic mass extinction , 2017, Proceedings of the National Academy of Sciences.

[43]  J. Bardintzeff,et al.  Devonian to Early Carboniferous magmatic alkaline activity in the Tafilalt Province, Eastearn Morocco: An Eovariscan episode in the Gondwana margin, north of the West African Craton , 2017 .

[44]  A. Derkowski,et al.  Influence of palaeoweathering on trace metal concentrations and environmental proxies in black shales , 2017 .

[45]  C. Corradini,et al.  Famennian (Upper Devonian) conodont zonation: revised global standard. , 2017 .

[46]  B. Belyatsky,et al.  Paleozoic tholeiitic magmatism of the Kola province: Spatial distribution, age, and relation to alkaline magmatism , 2017, Petrology.

[47]  Cyrille Prestianni,et al.  Disrupted continental environments around the Devonian-Carboniferous Boundary: introduction of the tener event , 2016 .

[48]  D. Cantrill,et al.  Severe selenium depletion in the Phanerozoic oceans as a factor in three global mass extinction events , 2016 .

[49]  C. Corradini,et al.  Conodonts across the Devonian/Carboniferous boundary: a review and implication for the redefinition of the boundary and a proposal for an updated conodont zonation , 2016, Geological Magazine.

[50]  O. Bábek,et al.  Devonian/Carboniferous boundary glacioeustatic fluctuations in a platform-to-basin direction: A geochemical approach of sequence stratigraphy in pelagic settings , 2016 .

[51]  D. Stockli,et al.  Continental arc volcanism as the principal driver of icehouse-greenhouse variability , 2016, Science.

[52]  J. Marshall,et al.  Greenhouse to icehouse: a biostratigraphic review of latest Devonian–Mississippian glaciations and their global effects , 2016, Special Publications.

[53]  S. Carmichael,et al.  Climate instability and tipping points in the Late Devonian: Detection of the Hangenberg Event in an open oceanic island arc in the Central Asian Orogenic Belt , 2016 .

[54]  M. Aretz,et al.  The global Hangenberg Crisis (Devonian–Carboniferous transition): review of a first-order mass extinction , 2015, Special Publications.

[55]  T. Mather,et al.  Globally enhanced mercury deposition during the end-Pliensbachian extinction and Toarcian OAE: A link to the Karoo–Ferrar Large Igneous Province , 2015 .

[56]  O. Bábek,et al.  Petrophysical and geochemical signature of the Hangenberg Events: an integrated stratigraphy of the Devonian-Carboniferous boundary interval in the Northern Rhenish Massif (Avalonia, Germany) , 2015 .

[57]  Cin-Ty A. Lee,et al.  The rise and fall of continental arcs: Interplays between magmatism, uplift, weathering, and climate , 2015 .

[58]  J. Winter Vulkanismus und Kellwasser-Krise – Zirkon-Tephrostratigrafie, Identifizierung und Herkunft distaler Fallout-Aschenlagen (Oberdevon, Synklinorium von Dinant, Rheinisches Schiefergebirge, Harz) , 2015 .

[59]  H. Sanei,et al.  Mercury anomalies associated with three extinction events (Capitanian Crisis, Latest Permian Extinction and the Smithian/Spathian Extinction) in NW Pangea , 2015, Geological Magazine.

[60]  A. Derkowski,et al.  Mineral-chemistry quantification and petrophysical calibration for multimineral evaluations: A nonlinear approach , 2015 .

[61]  A. Malinverno,et al.  Environmental consequences of Ontong Java Plateau and Kerguelen Plateau volcanism , 2015 .

[62]  Wenkun Qie,et al.  Local overprints on the global carbonate δ13C signal in Devonian–Carboniferous boundary successions of South China , 2015 .

[63]  R. Ernst Large Igneous Provinces , 2014, Encyclopedia of Geology.

[64]  Yigang Xu,et al.  Triggers of Permo-Triassic boundary mass extinction in South China: The Siberian Traps or Paleo-Tethys ignimbrite flare-up? , 2014 .

[65]  L. Marynowski,et al.  The expression of the Hangenberg Event (latest Devonian) in a relatively shallow-marine succession (Pomeranian Basin, Poland): the results of a multi-proxy investigation , 2014, Geological Magazine.

[66]  O. Bábek,et al.  Sea-level and environmental changes around the Devonian–Carboniferous boundary in the Namur–Dinant Basin (S Belgium, NE France): A multi-proxy stratigraphic analysis of carbonate ramp archives and its use in regional and interregional correlations , 2014 .

[67]  J. Malec The Devonian/Carboniferous boundary in the Holy Cross Mountains , 2014 .

[68]  K. Kaiho,et al.  Devonian-Carboniferous transition containing a Hangenberg Black Shale equivalent in the Pho Han Formation on Cat Ba Island, northeastern Vietnam , 2014 .

[69]  S. Bowring,et al.  High‐precision U–Pb age and duration of the latest Devonian (Famennian) Hangenberg event, and its implications , 2014 .

[70]  O. Rouxel,et al.  Coupled molybdenum, iron and uranium stable isotopes as oceanic paleoredox proxies during the Paleoproterozoic Shunga Event , 2013 .

[71]  D. Han Synthesis, Characterization, And Application Of Pyrite For Removal Of Mercury , 2013 .

[72]  C. Koeberl,et al.  Geochemical record of Late Devonian to Early Carboniferous events, Palaeozoic of Graz, Eastern Alps, Austria , 2013 .

[73]  D. Fike,et al.  Latest Devonian (Famennian) global events in western Laurentia: Variations in the carbon isotopic record linked to diagenetic alteration below regionally extensive unconformities , 2013 .

[74]  J. Ricci,et al.  New 40Ar/39Ar and K–Ar ages of the Viluy traps (Eastern Siberia): Further evidence for a relationship with the Frasnian–Famennian mass extinction , 2013 .

[75]  D. Morata,et al.  Intraplate mafic magmatism, degasification, and deposition of mercury: The giant Almadén mercury deposit (Spain) revisited , 2013 .

[76]  O. Bábek,et al.  A high-resolution, multiproxy stratigraphic analysis of the Devonian–Carboniferous boundary sections in the Moravian Karst (Czech Republic) and a correlation with the Carnic Alps (Austria) , 2013, Geological Magazine.

[77]  A. Anbar,et al.  Resolution of inter-laboratory discrepancies in Mo isotope data: an intercalibration , 2013 .

[78]  D. Bond,et al.  The astronomical rhythm of Late-Devonian climate change (Kowala section, Holy Cross Mountains, Poland) , 2013 .

[79]  T. Lyons,et al.  Contrasting molybdenum cycling and isotopic properties in euxinic versus non-euxinic sediments and sedimentary rocks: Refining the paleoproxies , 2012 .

[80]  T. Algeo,et al.  Analysis of marine environmental conditions based onmolybdenum–uranium covariation—Applications to Mesozoic paleoceanography , 2012 .

[81]  J. Kaźmierczak,et al.  Late Devonian marine anoxia challenged by benthic cyanobacterial mats , 2012, Geobiology.

[82]  S. Kurkiewicz,et al.  Deciphering the upper Famennian Hangenberg Black Shale depositional environments based on multi-proxy record , 2012 .

[83]  N. Savage,et al.  Late Devonian sedimentary record of the Paleotethys Ocean – The Mae Sariang section, northwestern Thailand , 2012 .

[84]  Q. Ji,et al.  U–Pb zircon age, sedimentary facies, and sequence stratigraphy of the Devonian–Carboniferous boundary, Daposhang Section, Guizhou, China , 2012 .

[85]  T. Hirata,et al.  The molybdenum isotopic composition of the modern ocean , 2012 .

[86]  A. Knoll,et al.  Molybdenum evidence for expansive sulfidic water masses in ~ 750 Ma oceans , 2011 .

[87]  M. Böttcher,et al.  Molybdenum isotope fractionation in pelagic euxinia: Evidence from the modern Black and Baltic Seas , 2011 .

[88]  T. Steuber,et al.  Climate-controlled mass extinctions, facies, and sea-level changes around the Devonian–Carboniferous boundary in the eastern Anti-Atlas (SE Morocco) , 2011 .

[89]  B. Simoneit,et al.  Effects of weathering on organic matter: I. Changes in molecular composition of extractable organic compounds caused by paleoweathering of a Lower Carboniferous (Tournaisian) marine black shale , 2011 .

[90]  C. Brett,et al.  Mudrock sequence stratigraphy: A multi-proxy (sedimentological, paleobiological and geochemical) approach, Devonian Appalachian Basin , 2011 .

[91]  A. Anbar,et al.  Extent and isotopic composition of Fe and Mo release from two Pennsylvania shales in the presence of organic ligands and bacteria , 2011 .

[92]  S. Brantley,et al.  Molybdenum isotope fractionation by cyanobacterial assimilation during nitrate utilization and N2fixation , 2011, Geobiology.

[93]  A. Anbar,et al.  Molybdenum isotope evidence for mild environmental oxygenation before the Great Oxidation Event , 2010 .

[94]  A. Anbar,et al.  Molybdenum isotope constraints on the extent of late Paleoproterozoic ocean euxinia , 2010 .

[95]  Andrew H Knoll,et al.  Devonian rise in atmospheric oxygen correlated to the radiations of terrestrial plants and large predatory fish , 2010, Proceedings of the National Academy of Sciences.

[96]  E. Paproth An introduction to a field trip to the Late Devonian outcrops in the Northern Rheinisches Schiefergebirge (Federal Republic of Germany) , 2010 .

[97]  K. Kaiho,et al.  A smooth negative shift of organic carbon isotope ratios at an end-Permian mass extinction horizon in central pelagic Panthalassa , 2010 .

[98]  M. Coates,et al.  End-Devonian extinction and a bottleneck in the early evolution of modern jawed vertebrates , 2010, Proceedings of the National Academy of Sciences.

[99]  Paweł Filipiak,et al.  Proliferation of abnormal palynoflora during the end-Devonian biotic crisis , 2010 .

[100]  T. Algeo,et al.  Environmental analysis of paleoceanographic systems based on molybdenum–uranium covariation , 2009 .

[101]  D. Mccarty,et al.  New insights into smectite illitization: A zoned K-bentonite revisited , 2009 .

[102]  S. Poulton,et al.  Mo isotope fractionation during adsorption to Fe (oxyhydr)oxides , 2009 .

[103]  A. Anbar,et al.  When do black shales tell molybdenum isotope tales , 2009 .

[104]  M. Palmer,et al.  Ocean acidification from explosive volcanism as a cause for mass mortality of pteropods , 2009 .

[105]  A. Şengör,et al.  The Permian Extinction and the Tethys: An Exercise in Global Geology , 2009 .

[106]  C. Dusel-Bacon,et al.  Evidence for prolonged mid-Paleozoic plutonism and ages of crustal sources in east-central Alaska from SHRIMP U-Pb dating of syn-magmatic, inherited, and detrital zircon , 2009 .

[107]  M. Böttcher,et al.  Sulfidity controls molybdenum isotope fractionation into euxinic sediments: Evidence from the modern Black Sea , 2008 .

[108]  D. Rosa,et al.  U-Pb geochronology of felsic volcanic rocks hosted in the Gafo Formation, South Portuguese Zone: the relationship with Iberian Pyrite Belt magmatism , 2008, Mineralogical Magazine.

[109]  S. Gíslason,et al.  Rapid releases of metal salts and nutrients following the deposition of volcanic ash into aqueous environments , 2008 .

[110]  T. Steuber,et al.  Environmental change during the Late Famennian and Early Tournaisian (Late Devonian–Early Carboniferous): implications from stable isotopes and conodont biofacies in southern Europe , 2008 .

[111]  E. Belousova,et al.  U–Pb detrital zircon ages in synorogenic deposits of the NW Iberian Massif (Variscan belt): interplay of Devonian–Carboniferous sedimentation and thrust tectonics , 2008, Journal of the Geological Society.

[112]  H. Strauss,et al.  Modeling the carbon and sulfur isotope compositions of marine sediments: Climate evolution during the Devonian , 2007 .

[113]  C. Crônier LARVAL MORPHOLOGY AND ONTOGENY OF AN UPPER DEVONIAN PHACOPID: NEPHRANOPS FROM THURINGIA, GERMANY , 2007 .

[114]  L. Marynowski,et al.  Water column euxinia and wildfire evidence during deposition of the Upper Famennian Hangenberg event horizon from the Holy Cross Mountains (central Poland) , 2007, Geological Magazine.

[115]  P. Spadea,et al.  Arc–continent collision in the Southern Urals , 2006 .

[116]  H. Brumsack,et al.  Anoxic vs dysoxic events reflected in sediment geochemistry during the Cenomanian-Turonian Boundary Event (Cretaceous) in the Umbria-Marche Basin of central Italy , 2006 .

[117]  T. Steuber,et al.  Geochemical evidence for major environmental change at the Devonian¿Carboniferous boundary in the Carnic Alps and the Rhenish Massif , 2006 .

[118]  Z. Berner,et al.  Palaeoenvironmental changes at the Frasnian/Famennian boundary in key European sections: Chemostratigraphic constraints , 2006 .

[119]  M. Joachimski,et al.  Carbon isotope stratigraphy of the Devonian of Central and Southern Europe , 2006 .

[120]  C. Moreno,et al.  The massive sulphide event in the Iberian Pyrite Belt: confirmatory evidence from the Sotiel-Coronada Mine , 2006, Geological Magazine.

[121]  T. Lyons,et al.  Trace metals as paleoredox and paleoproductivity proxies: An update , 2006 .

[122]  Jorge L. Sarmiento,et al.  Ocean Biogeochemical Dynamics , 2006 .

[123]  H. Brumsack The trace metal content of recent organic carbon-rich sediments; implications for Cretaceous black shale formation , 2006 .

[124]  Thomas J. Algeo,et al.  Mo–total organic carbon covariation in modern anoxic marine environments: Implications for analysis of paleoredox and paleohydrographic conditions , 2006 .

[125]  W. Berelson,et al.  Molybdenum isotope signatures in continental margin marine sediments , 2006 .

[126]  J. Pross,et al.  Assessing mechanisms of environmental change: Palynological signals across the Late Ludlow (Silurian) positive isotope excursion (δ13C, δ18O) on Gotland, Sweden , 2006 .

[127]  F. Barriga,et al.  Mineralogy and geochemistry of hydrothermal sediments from the serpentinite-hosted Saldanha hydrothermal field (36°34′N; 33°26′W) at MAR , 2006 .

[128]  P. Wignall,et al.  The Link between Large Igneous Province Eruptions and Mass Extinctions , 2005 .

[129]  C. Foster,et al.  Abnormal pollen grains: an outcome of deteriorating atmospheric conditions around the Permian–Triassic boundary , 2005, Journal of the Geological Society.

[130]  M. Böttcher,et al.  Sedimentary Mo isotope record across the Holocene fresh–brackish water transition of the Black Sea , 2005 .

[131]  C. Fielding,et al.  U–Pb zircon geochronology of Late Devonian to Early Carboniferous extension‐related silicic volcanism in the northern New England Fold Belt , 2004 .

[132]  K. Mezger,et al.  Numerical calibration of the Devonian-Carboniferous boundary: Two new U-Pb isotope dilution–thermal ionization mass spectrometry single-zircon ages from Hasselbachtal (Sauerland, Germany) , 2004 .

[133]  E. Erba,et al.  Volcanism, CO2 and palaeoclimate: a Late Jurassic–Early Cretaceous carbon and oxygen isotope record , 2004, Journal of the Geological Society.

[134]  S. M. Rimmer Geochemical paleoredox indicators in Devonian–Mississippian black shales, Central Appalachian Basin (USA) , 2004 .

[135]  A. Anbar,et al.  Molybdenum Isotope Evidence for Widespread Anoxia in Mid-Proterozoic Oceans , 2004, Science.

[136]  U. Brand,et al.  Biochemostratigraphy of the Devonian−Carboniferous boundary global stratotype section and point, Griotte Formation, La Serre, Montagne Noire, France , 2004 .

[137]  P. Wignall,et al.  Extent and duration of marine anoxia during the Frasnian–Famennian (Late Devonian) mass extinction in Poland, Germany, Austria and France , 2004, Geological Magazine.

[138]  D. Pyle,et al.  The importance of volcanic emissions for the global atmospheric mercury cycle , 2003 .

[139]  K. Caldeira,et al.  Carbonate Deposition, Climate Stability, and Neoproterozoic Ice Ages , 2003, Science.

[140]  J. Kramers,et al.  Molybdenum isotope records as a potential new proxy for paleoceanography , 2003 .

[141]  T. Lyons,et al.  A tale of shales: the relative roles of production, decomposition, and dilution in the accumulation of organic-rich strata, Middle–Upper Devonian, Appalachian basin , 2003 .

[142]  R. Creaser,et al.  Further evaluation of the Re-Os geochronometer in organic-rich sedimentary rocks: A test of hydrocarbon maturation effects in the Exshaw Formation, Western Canada Sedimentary Basin , 2002 .

[143]  A. Jahren The biogeochemical consequences of the mid-Cretaceous superplume , 2002 .

[144]  G. Pe‐Piper,et al.  Chronology of Devonian to early Carboniferous rifting and igneous activity in southern Magdalen Basin based on U-Pb (zircon) dating , 2002 .

[145]  X. Devleeschouwer,et al.  The Frasnian/Famennian boundary interval in the South Polish-Moravian shelf basins: integrated event-stratigraphical approach , 2002 .

[146]  D. Beerling,et al.  An atmospheric pCO2 reconstruction across the Cretaceous-Tertiary boundary from leaf megafossils , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[147]  A. Anbar,et al.  Natural mass-dependent variations in the isotopic composition of molybdenum , 2001 .

[148]  Michael A. Smith,et al.  Microbially mediated carbon cycling as a control on the δ 13 C of sedimentary carbon in eutrophic Lake Mendota (USA): new models for interpreting isotopic excursions in the sedimentary record , 2001 .

[149]  A. Läufer,et al.  Variscan geodynamic evolution of the Carnic Alps (Austria/Italy) , 2001 .

[150]  J. Kramers,et al.  Determination of molybdenum isotope fractionation by double‐spike multicollector inductively coupled plasma mass spectrometry , 2001 .

[151]  A. Anbar,et al.  Precise determination of mass-dependent variations in the isotopic composition of molybdenum using MC-ICPMS. , 2001, Analytical chemistry.

[152]  M. Streel,et al.  Late Frasnian–Famennian climates based on palynomorph analyses and the question of the Late Devonian glaciations , 2000 .

[153]  K. Pande,et al.  Carbonatite alkaline magmatism associated with continental flood basalts at stratigraphic boundaries: Cause for mass extinctions , 1999 .

[154]  R. Bustin,et al.  Devonian-carboniferous Hangenberg mass extinction event, widespread organic-rich mudrock and anoxia: Causes and consequences , 1999 .

[155]  P. Wignall,et al.  Pyrite framboid diameter as a measure of oxygen deficiency in ancient mudrocks , 1998 .

[156]  G. Hanson,et al.  Geochemistry and provenance of the Middle Ordovician Austin Glen Member (Normanskill Formation) and the Taconian Orogeny in New England , 1998 .

[157]  A. G. Harris,et al.  New U–Pb zircon ages and the duration and division of Devonian time , 1998 .

[158]  Thomas J. Algeo,et al.  Terrestrial-marine teleconnections in the Devonian: links between the evolution of land plants, weathering processes, and marine anoxic events , 1998 .

[159]  Kenneth H. Rubin Degassing of metals and metalloids from erupting seamount and mid-ocean ridge volcanoes: Observations and predictions , 1997 .

[160]  M. Wilson,et al.  Magmatism and the geodynamics of rifting of the Pripyat-Dnieper-Donets rift, East European Platform , 1996 .

[161]  Stefan Schouten,et al.  Restricted utility of aryl isoprenoids as indicators of photic zone anoxia , 1996 .

[162]  R. Bustin,et al.  Demise of a Devonian-Carboniferous carbonate ramp by eutrophication , 1996 .

[163]  R. M. Owen,et al.  Dissociation of oceanic methane hydrate as a cause of the carbon isotope excursion at the end of the Paleocene , 1995 .

[164]  P. Acquafredda,et al.  Palaeozoic sequences and evolution of the Calabrian‐Peloritan Arc (Southern Italy) , 1994 .

[165]  D. Manning,et al.  Comparison of geochemical indices used for the interpretation of palaeoredox conditions in ancient mudstones , 1994 .

[166]  S. Calvert,et al.  Geochemistry of Recent oxic and anoxic marine sediments: Implications for the geological record , 1993 .

[167]  D. Korn Threedimensionally preserved clymeniids from the Hangenberg Black Shale of Drewer (Cephalopoda, Ammonoidea; Devonian-Carboniferous boundary; Rhenish Massif) , 1991 .

[168]  L. Jeppsson An oceanic model for lithological and faunal changes tested on the Silurian record , 1990, Journal of the Geological Society.

[169]  R. Jahnke,et al.  Early diagenesis in differing depositional environments: The response of transition metals in pore water , 1990 .

[170]  G. Gill,et al.  Vertical mercury distributions in the oceans , 1988 .

[171]  Robert F. Martin,et al.  The Harvey volcanic suite, New Brunswick; II, Postmagmatic adjustments in the mineralogy and bulk composition of a high-fluorine rhyolite , 1986 .

[172]  W. Dean,et al.  Anomalous 13C enrichment in modern marine organic carbon , 1985, Nature.

[173]  J. Cantagrel,et al.  Palaeozoic granitoids from the French Massif Central: age and origin studied by 87Rb87Sr system , 1984 .

[174]  K. Matsunaga Oceanic residence time of mercury , 1981 .

[175]  R. Ernst,et al.  Age correlation of Large Igneous Provinces with Devonian biotic crises , 2020 .

[176]  G. Racki Volcanism as a prime cause of mass extinctions: Retrospectives and perspectives , 2020 .

[177]  D. B. Sobolev,et al.  Devonian-Carboniferous boundary in the East of the Pechora Plate (Kamenka River and Vangyr River sections) , 2019, Vestnik of Institute of Geology of Komi Science Center of Ural Branch RAS.

[178]  K. Föllmi,et al.  Mercury enrichments in lower Aptian sediments support the link between Ontong Java large igneous province activity and oceanic anoxic episode 1a , 2017 .

[179]  C. Klein Testing Modern Biostratigraphical Methods: Application to the Ammonoid Zonation across the Devonian-Carboniferous Boundary , 2016 .

[180]  H. Svensen,et al.  The effects of large igneous provinces on the global carbon and sulphur cycles , 2016 .

[181]  T. Becker,et al.  The Famennian to Lower Viséan at Drewer (northern Rhenish Massif) , 2016 .

[182]  C. Corradini,et al.  Pal Grande Formation , 2015 .

[183]  H. Austrheim,et al.  Late Devonian rifting in the central North Sea: Evidence from altered felsic volcanic rocks in the Embla oil field , 2012 .

[184]  A. Fijałkowska-Mader Odzwierciedlenie stresu środowiskowego w palinoflorze późnego permu w Polsce , 2012 .

[185]  H. Sanei,et al.  Latest Permian mercury anomalies , 2012 .

[186]  G. Retallack,et al.  Ecology and evolution of Devonian trees in New York, USA , 2011 .

[187]  R. Tosdal,et al.  Devonian and Carboniferous arcs of the Oyu Tolgoi porphyry Cu-Au district, South Gobi region, Mongolia , 2011 .

[188]  N. S. Petrova PYROCLASTIC ROCKS IN DEPOSITS OF THE POTASSIC SUBFORMATION OF THE PRIPYAT INTRACONTINENTAL PALAEORIFT , 2010 .

[189]  E. Olempska Changes in benthic ostracod assemblages across the Devonian/Carboniferous boundary in the Holy Cross Mountains, Poland , 2009 .

[190]  B. Cramer,et al.  Record of the Late Devonian Hangenberg global positive carbon-isotope excursion in an epeiric sea setting: Carbonate production, organic-carbon burial and paleoceanography during the late Famennian , 2008 .

[191]  E. Krzemińska,et al.  Wczesnokarboñski wiek intruzji platformowych w podlozu krystalicznym NE Polski , 2006 .

[192]  D. Korn,et al.  High resolution stratigraphy of the Devonian-Carboniferous transitional beds in the Rhenish Mountains , 2003 .

[193]  A. Alekseev,et al.  Evolution of the southern margin of the Donbas (Ukraine) from Devonian to Early Carboniferous times , 2003, Geological Society, London, Special Publications.

[194]  P. Renne,et al.  On the ages of flood basalt events , 2003 .

[195]  W. Ziegler,et al.  Late Devonian sea-level changes, catastrophic events, and mass extinctions , 2002 .

[196]  M. Pracht Controls on magmatism in the Munster Basin, SW Ireland , 2000, Geological Society, London, Special Publications.

[197]  H. Schönlaub,et al.  The Palaeozoic Evolution of the Southern Alps , 2000 .

[198]  E. Olempska Changes in benthic ostacod assemblages across the Devonian-Carboniferous boudary in the Holy Cross Mountains, Poland , 1997 .

[199]  F. Bell,et al.  Regional distribution of sulphate in rocks and soils of Britain , 1995, Geological Society, London, Engineering Geology Special Publication.

[200]  W. Frisch,et al.  Pre-Alpine terranes and tectonic zoning in the eastern Alps , 1989 .

[201]  B. Richards,et al.  Devonian-Carboniferous Boundary Beds of the Palliser and Exshaw Formations at Jura Creek, Rocky Mountains, Southwestern Alberta , 1988 .

[202]  S. Taylor,et al.  The continental crust: Its composition and evolution , 1985 .

[203]  K. Boström Genesis of Ferromanganese Deposits-Diagnostic Criteria for Recent and Old Deposits , 1983 .

[204]  P. A. Ziegler,et al.  Geological atlas of Western and Central Europe , 1969 .