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Author: Nevin Paul Kozik
Publisher:
ISBN:
Category : Biogeochemistry
Languages : en
Pages : 0
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Book Description
After decades of research biogeochemists have identified several intervals of variable marine oxygenation throughout Earth's history. These fluctuations in oxygenation have been proposed to directly correlate to changes in ancient biodiversity, and potentially be primary drivers for these observed changes in faunal richness. The Ordovician was a dynamic time in terms of marine biodiversity, as it hosts the largest increase in biodiversity events in the Phanerozoic, which occurs in the Early to Middle Ordovician commonly referred to as the Great Ordovician Biodiversification Event (GOBE). This major marine radiation is subsequently terminated by the second largest mass extinction in Earth's history that occurs in the Late Ordovician, commonly referred to as the Late Ordovician Mass Extinction (LOME). While the primary causal mechanisms for both events remain under debate, an emerging field of study has associated an increase in marine oxygenation with the GOBE, while a decrease in marine oxygenation has been proposed for the LOME. Using a suite of paleoredox proxies, we present new geochemical datasets surrounding key intervals of the GOBE and LOME to elucidate the paleoredox landscape surrounding these events and link the known changes in biodiversity with fluctuations in marine oxygenation. These paleoredox proxies include local proxies that have previously been shown to constrain basinal changes in redox, which allows the use of global proxies to identify global changes in redox which might influence global biodiversity. These local redox proxies include manganese concentrations, iodine-to-calcium ratios, iron speciation, and pyrite sulfur isotopic compositions, while the global redox proxies include thallium isotopic compositions, vanadium, uranium and molybdenum concentrations, and carbonate-associated sulfate isotopic compositions. The major increase in faunal richness associated with the GOBE is thought to begin after the Cambrian-Ordovician boundary, however paleoredox conditions surrounding this interval of time is largely under constrained. Currently a singular paleoredox dataset has been published to constrain paleoredox conditions across this boundary, however this dataset is limited in stratigraphic range, and is not tied to changes in biodiversity. New geochemical datasets from the Baltic Basin presented here from modern day southern Sweden (Scania) provide additional context for paleoredox conditions during the initiation of the GOBE. A progressive increase in oxygenation succeeding the Cambrian-Ordovician boundary is interpreted based on trace metal dynamics and thallium isotopic compositions, which may be providing enhanced metabolic efficiency and new niche space due to newly oxygenated shelf areas leading into the later Ordovician. The Middle-Late Ordovician is associated with peak faunal diversity which has been attributed to enhanced marine oxygenation. Similarly with the Cambrian-Ordovician boundary, very few studies have provided direct paleoredox evidence for a progressive increase in marine oxygenation, and thus redox conditions surrounding this integral period of diversification. New geochemical datasets from the Baltic Basin show a long-term increase in marine oxygenation throughout this interval though novel thallium isotopic compositions. The primary causal mechanisms for the LOME remains unclear, however there is growing evidence that anoxia is playing a larger role than initially thought. Classically, the LOME occurs between two extinction pulses, the first being attributed to climatic cooling and subsequent expansion of Gondwanan glaciation which resulted in widespread habitat loss, while the second pulse is associated with climatic warming, deglaciation, and an expansion of globally reducing conditions. New geochemical evidence from three carbonate successions derived from hydrographically dispersed basins show evidence of persistent reducing conditions throughout the Late Ordovician though low iodine-to-calcium ratios, while carbonate-associated sulfate isotopic suggest an overall reduction of global pyrite burial. Lastly, new thallium isotopic compositions from two Upper Ordovician basins of predominantly organic-rich shales identify highly variable global burial of manganese oxides which is intimately linked to marine (de)oxygenation and the two extinction pulses of the LOME. These thallium isotopic trends show that there were two major fluctuations between oxygenated and reducing conditions, which suggests that dynamic changes in oxygenation levels is a primary control on marine biodiversity, rather than the magnitude of reducing conditions.
Author: Nevin Paul Kozik
Publisher:
ISBN:
Category : Biogeochemistry
Languages : en
Pages : 0
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Book Description
After decades of research biogeochemists have identified several intervals of variable marine oxygenation throughout Earth's history. These fluctuations in oxygenation have been proposed to directly correlate to changes in ancient biodiversity, and potentially be primary drivers for these observed changes in faunal richness. The Ordovician was a dynamic time in terms of marine biodiversity, as it hosts the largest increase in biodiversity events in the Phanerozoic, which occurs in the Early to Middle Ordovician commonly referred to as the Great Ordovician Biodiversification Event (GOBE). This major marine radiation is subsequently terminated by the second largest mass extinction in Earth's history that occurs in the Late Ordovician, commonly referred to as the Late Ordovician Mass Extinction (LOME). While the primary causal mechanisms for both events remain under debate, an emerging field of study has associated an increase in marine oxygenation with the GOBE, while a decrease in marine oxygenation has been proposed for the LOME. Using a suite of paleoredox proxies, we present new geochemical datasets surrounding key intervals of the GOBE and LOME to elucidate the paleoredox landscape surrounding these events and link the known changes in biodiversity with fluctuations in marine oxygenation. These paleoredox proxies include local proxies that have previously been shown to constrain basinal changes in redox, which allows the use of global proxies to identify global changes in redox which might influence global biodiversity. These local redox proxies include manganese concentrations, iodine-to-calcium ratios, iron speciation, and pyrite sulfur isotopic compositions, while the global redox proxies include thallium isotopic compositions, vanadium, uranium and molybdenum concentrations, and carbonate-associated sulfate isotopic compositions. The major increase in faunal richness associated with the GOBE is thought to begin after the Cambrian-Ordovician boundary, however paleoredox conditions surrounding this interval of time is largely under constrained. Currently a singular paleoredox dataset has been published to constrain paleoredox conditions across this boundary, however this dataset is limited in stratigraphic range, and is not tied to changes in biodiversity. New geochemical datasets from the Baltic Basin presented here from modern day southern Sweden (Scania) provide additional context for paleoredox conditions during the initiation of the GOBE. A progressive increase in oxygenation succeeding the Cambrian-Ordovician boundary is interpreted based on trace metal dynamics and thallium isotopic compositions, which may be providing enhanced metabolic efficiency and new niche space due to newly oxygenated shelf areas leading into the later Ordovician. The Middle-Late Ordovician is associated with peak faunal diversity which has been attributed to enhanced marine oxygenation. Similarly with the Cambrian-Ordovician boundary, very few studies have provided direct paleoredox evidence for a progressive increase in marine oxygenation, and thus redox conditions surrounding this integral period of diversification. New geochemical datasets from the Baltic Basin show a long-term increase in marine oxygenation throughout this interval though novel thallium isotopic compositions. The primary causal mechanisms for the LOME remains unclear, however there is growing evidence that anoxia is playing a larger role than initially thought. Classically, the LOME occurs between two extinction pulses, the first being attributed to climatic cooling and subsequent expansion of Gondwanan glaciation which resulted in widespread habitat loss, while the second pulse is associated with climatic warming, deglaciation, and an expansion of globally reducing conditions. New geochemical evidence from three carbonate successions derived from hydrographically dispersed basins show evidence of persistent reducing conditions throughout the Late Ordovician though low iodine-to-calcium ratios, while carbonate-associated sulfate isotopic suggest an overall reduction of global pyrite burial. Lastly, new thallium isotopic compositions from two Upper Ordovician basins of predominantly organic-rich shales identify highly variable global burial of manganese oxides which is intimately linked to marine (de)oxygenation and the two extinction pulses of the LOME. These thallium isotopic trends show that there were two major fluctuations between oxygenated and reducing conditions, which suggests that dynamic changes in oxygenation levels is a primary control on marine biodiversity, rather than the magnitude of reducing conditions.
Author: Stanley Charles Finney
Publisher: Geological Society of America
ISBN: 081372466X
Category : Science
Languages : en
Pages : 204
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Book Description
"The Ordovician period is a significant chapter in Earth's history that included the great Mid-Ordovician biodiversification event, the Hirnantian glaciation, and long-term greenhouse conditions. Ordovician rocks are widespread on most continents and the recent finalization of a modern chronostratigraphic classification of the Ordovician system now facilitates high-resolution correlations that allow for integrated multidisciplinary research. The diverse papers comprising this volume address orogenesis, paleogeography, climate modeling, sedimentation, biodiversity, and isotopic excursions; together they promote an integrated view of the Ordovician earth system."--Publisher's description.
Author: D.A.T. Harper
Publisher: Geological Society of London Special Publications
ISBN: 1786205882
Category : Science
Languages : en
Pages : 514
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Book Description
The Ordovician was one of the longest of the geological periods, characterized by major magmatic and tectonic activity, an immense biodiversification, swings in climate and sea levels and the first Phanerozoic mass extinction. ‘A Global Synthesis of the Ordovician System’ is presented in two volumes in The Geological Society, Special Publications. This first volume (SP532) charts the history of the Ordovician System and explores significant advances in our understanding of its biostratigraphy, including more precise calibration of its timescale with tephra chronology and regional alignments using astrochronology and cyclostratigraphy. Changes in the world’s oceans, their shifting currents and sea levels, the biogeography of their biotas and the ambient climate are described and discussed against a background of changing palaeogeography. This first volume also includes syntheses of the Ordovician geology for most European countries, including historical key areas, such as Great Britain, Baltoscandia and Bohemia. The second volume (SP533) provides synthetic aspects of the Ordovician geology of most other parts of the world.
Author: David L. Bruton
Publisher: Oxford University Press, USA
ISBN:
Category : Language Arts & Disciplines
Languages : en
Pages : 240
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Author: Joshua Robert Cuyler
Publisher:
ISBN:
Category : Ellenburger Group (Tex.)
Languages : en
Pages :
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Ordovician age hydrocarbons have been drilled in the Permian Basin of West Texas since the early 1940s and have produced over a billion barrels of oil with additional natural gas. The source rock for these previously drilled Ellenburger Group reservoirs has been suggested to be the Simpson Group shales, but limited total organic carbon studies and no x-ray fluorescence analysis has been performed on the Permian Basin Ordovician rocks to determine the overall lithology and trace element enrichment relative to total organic carbon to substantiate this statement. The majority of Ordovician hydrocarbon production has occurred in faulted and structural traps in the Ellenburger, but the hydrocarbons have a different hypothesized source due to generally low total organic carbon within this group. Trace element enrichments can serve as indicators of the presence of organic material and paleoredox conditions. This study utilizes x-ray fluorescence elemental data and total organic carbon data from Permian Basin Ordovician sediments to analyze general rock lithology and to understand whether biologically- and paleoredox-sensitive trace elements coincide with total organic carbon, and if so, can these similarities give insight to the organic enrichment of these sediments and the paleoredox conditions present during their deposition. The findings of this study suggest that the Simpson Group reflects a depositional environment with intermittent layers of sandstone, green shale, black shale, red shale, and a large percentage of carbonate suggesting a shallow water marine environment. The majority of trace elements that serve as useful proxies for total organic carbon within these sediments are mostly associated with the detrital shale influx and are not associated with biological activity or paleoredox conditions. The majority of the total organic carbon values for the Simpson Group and Ellenburger Group suggest a poor (
Author: Diego García-Bellido Capdevila
Publisher: IGME
ISBN: 9788478408573
Category : Geology, Stratigraphic
Languages : en
Pages : 692
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Author: Michael G. Bassett
Publisher:
ISBN:
Category : Science
Languages : en
Pages : 712
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Author: John Doyne Cooper
Publisher: Pacific Section Society of Economic Paleontologists & Mineralogists
ISBN:
Category : Science
Languages : en
Pages : 172
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Author: Christopher R. Barnes
Publisher:
ISBN:
Category : Science
Languages : en
Pages : 356
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Book Description
Selected papers from the August 1988 symposium on the Ordovician System. Authors from the U.K., Canada, Australia, and the U.S. contributed papers on a project to redefine regional chronostratigraphic subdivisions. Papers also cover Ordovician paleontology and biostratigraphy, emphasizing conodonts, graptolites and trilobites. The interrelationships of stratigraphy, eustasy, tectonics, and volcanisms are explored, with particular attention to the Appalachian Orogen. The final section of the volume documents some of the new data and interpretations of Ordovician paleo-oceanography, paleoclimatology, and paleogeography.
Author: Kun Zhang
Publisher: Frontiers Media SA
ISBN: 2832523501
Category : Science
Languages : en
Pages : 683
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