Overview

The demand for oil and gas has brought exploration and production to unprecedented depths of the world’s oceans.  Currently, over 50% of the oil from the Gulf of Mexico now comes from waters in excess of 1,500 meters (one mile) deep, where no oil was produced just 20 years ago.  The Deepwater Horizon oil spill blowout did much to change the perception of oil spills as coming just from tanker accidents, train derailments, and pipeline ruptures.  In fact, beginning with the Ixtoc 1 spill off Campeche, Mexico in 1979-1980, there have been a series of large spill events originating at the sea bottom and creating a myriad of new environmental and well control challenges. This volume explores the physics, chemistry, sub-surface oil deposition and environmental impacts of deep oil spills.  Key lessons learned from the responses to previous deep spills, as well as unresolved scientific questions for additional research are highlighted, all of which are appropriate for governmental regulators, politicians, industry decision-makers, first responders, researchers and students wanting an incisive overview of issues surrounding deep-water oil and gas production.

Full Product Details

Author:   Steven A. Murawski ,  Cameron H. Ainsworth ,  Sherryl Gilbert ,  David J. Hollander
Publisher:   Springer Nature Switzerland AG
Imprint:   Springer Nature Switzerland AG
Edition:   1st ed. 2020
Weight:   1.099kg
ISBN:  

9783030116040

ISBN 10:   3030116042
Pages:   611
Publication Date:   16 July 2019
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Section 1 Preface & Introduction   Deep oil, the setting and evolution of exploration and production (emphasis on Gulf of Mexico), include aspects of the history of deep spills including DWH, IXTOC‐I, Brazil, 2011 (Chevron), and “Deep Spill”, a field‐oriented research project that released oil off Norway.   Section 2 Physics and Chemistry of Deep Oil Blowouts   Impacts of petroleum type (API and GOR), reservoir characteristics (pressures and geometry), water depth (pressure), water temperature and other factors on multi‐phase flows (oil, gas, semi‐solids), including hydrate formation. Formation of deep plumes of oil droplets and impacts of the use of dispersants in the deep sea.   Section 3. Transport and Degradation of oil from Deep Blowouts   Near‐ and Far‐Field transport modeling (e.g., both height above the blowout, and 4‐dimensional modeling of oil transport at the surface and at depth. These models will incorporate experimental findings in (2) above and microbial degradation processes.   Section 4. Oil in the Deep Sea   Transport to the bottom, formation of oil/mineral aggregates, oiled marine snow (“dirty blizzard”), intersection of deep oil plumes with the bathymetry (“dirty bathtub ring”). Biological exposure impacts on marine benthos.   Section 5. Impacts of Deep Spills on Plankton, Fishes, and Marine Mammals   Impacts on the uptake and depuration of various species monitored over time, community organization and community dynamics post‐spill (including plankton, benthic fishes, pelagic fishes, and large vertebrates including sea turtles and marine mammals). Impacts of confounding factors such as invasive species (lionfish) in the area of the DWH spills. Section 6. Toxicology of Deep Oil Spills   Results of exposure studies, uptake and depuration kienetics under both chronic and acute (lethal to sub‐lethal) exposures and mixtures of both. Genotoxic effects in multigenerational exposure experiments. Relation to field data, toxicokienetics modeling and impacts on community structure and population dynamics.

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Author Information

Steven A. Murawski is a Professor and Downtown Partnership/Peter Betzer Endowed Chair of Biological Oceanography at the University of South Florida.  Murawski currently serves as director of the C-IMAGE consortium conducting interdisciplinary oil-spill related research.  Prior to his current position, he was Director of Scientific Programs and Chief Science Advisor for the US National Marine Fisheries Service.  He is a fishery biologist with interests in population and ecosystem ecology and dynamics.  He has published nearly 200 journal articles, technical reports and book chapters.  Awards include the Department of Commerce Gold Medal.  His Ph.D. is in Wildlife and Fisheries Biology from the University of Massachusetts-Amherst. Cameron H. Ainsworth is an Associate Professor of Fisheries Science at the University of South Florida.  He uses ‘end-to-end’ models and other means to study anthropogenic influences on marine ecosystems.  His recent work has considered fishing, climate change and oil spills as drivers of ecosystem change.  He keeps an applied focus, working with NOAA and state fisheries managers on common research themes and serving as a member of the Ecosystem Science and Statistical Committee of the Gulf of Mexico Fisheries Management Council.  He has published over 100 peer-reviewed and technical articles.  Awards include a Sloan Research Fellowship for early career scientists and an Outstanding Faculty Award.  His Ph.D. is in Resource Management and Environmental Studies from the University of British Columbia in Vancouver, Canada. Sherryl Gilbert is the deputy director of the C-IMAGE consortium operated at the College of Marine Science at the University of South Florida.  Gilbert has served as the center’s operational core since 2011, coordinating research and management efforts.  Prior to 2011, Gilbert was the technical director of the Ocean Modeling and Prediction Laboratory and was heavily involved in ocean sensor development, testing, and its application to study coastal processes. She is a physical oceanographer with broader interests in Gulf conservation efforts.  Ms. Gilbert holds a M.S. in Marine Science from the University of South Florida. David J. Hollander is a Professor of Chemical Oceanography and Sedimentary Geochemistry at the University of South Florida. Hollander currently serves as the Chief Science Officer developing and overseeing the wide scope of interdisciplinary scientific activities conducted by C-IMAGE. Since the Deepwater Horizon Blowout event in 2010, he has played a critical role in scientific discovery, public communications of findings, and influencing the research, response efforts and policies of federal agencies. He is an isotope and molecular organic geochemist focusing on climate, environment and ecosystem changes at both natural and anthropogenic time-scales.  He has over 100 peer-reviewed paper and received his Ph.D. from the Swiss Federal Institute of Technology (ETH-Zurich). Claire B. Paris-Limouzy is a Professor of Ocean Sciences at the Rosenstiel School of Marine and Atmospheric Sciences. Paris is a PI for the C-IMAGE consortium, leading oil-spill modeling research. She is a biological oceanographer with interests in larval ecology and biophysical interactions. She has over 170 publications, including the probabilistic open-source Connectivity Modeling System used worldwide to predict dispersion and population connectivity and in NOAA fisheries stock assessment. She is President-Elect of the Early Life History section of the American Fishery Society and the 2018 AGU Rachel Carson Lecturer.  Paris is interdisciplinary at heart with a Ph.D. is in Coastal Oceanography from the State University of New York at Stony Brook. Michael Schlüter owns the Chair of ‘Fluid Mechanics for Multiphase Systems’ at the Hamburg University of Technology and is head of the Institute of Multiphase Flows. He also serves as coordinator of the DFG Priority Program “Reactive Bubble Columns“ and as President of the Working Party “Multiphase Fluid Flow“ in the European Federation of Chemical Engineering. His research interest is primarily in the field of multiscale transport phenomena in chemical and bioprocess engineering, reactor development, design and scale-up. He has published over 50 papers and completed work on more than 15 books. Dana L. Wetzel is a Senior Scientist, Program Manager of the Environmental Laboratory for Forensics, and Eminent Scholar at Mote Marine Laboratory.  Her research focuses on sub-lethal effects of chemical contaminant exposure on essential biochemical processes in marine organisms from corals to polar bears. Wetzel has served on panels to develop and assess protocols for oil spill response research and for oil dispersant use in the Arctic.  Her Ph.D. is in Chemical Oceanography from the University of South Florida, where she was the recipient of both the Robert M. Garrels and Gulf Oceanographic Charitable Trust Fellowships.

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