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Deep Oil Spills : Facts, Fate, and Effects (2020)

Murawski, Steven A. [editor.] ; Ainsworth, Cameron H. [editor.] ; Gilbert, Sherryl. [editor.] ; [et al.]

Cham :Springer International Publishing :

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Keywords: Water. ; Hydrology. ; Freshwater ecology. ; Marine ecology. ; Environmental chemistry. ; Environmental management. ; Environmental engineering. ; Biotechnology. ; Bioremediation. ; Water. ; Freshwater and Marine Ecology. ; Environmental Chemistry. ; Environmental Management. ; Environmental Engineering/Biotechnology.

Description / Table of Contents: Section I. Introduction -- 1. Introduction to the Volume -- Section II. Physics and Chemistry of Deep Oil Well Blowouts -- 2. The importance of understanding fundamental physics and chemistry of deep oil blowouts -- 3. Physical and chemical properties of oil and gas under reservoir and deep-sea conditions -- 4. Jet formation at the blowout site -- 5. Behavior of rising droplets and bubbles – impact on the physics of deep-sea blowouts and oil fate -- Section III. Transport and Degradation of Oil and Gas from Deep Spills -- 6. The importance of understanding transport and degradation of oil and gasses from deep sea blowouts -- 7. Biodegradation of petroleum hydrocarbons in the deep sea -- 8 Partitioning of organics between oil and water phases with and without the application of dispersants -- 9. Dynamic coupling of near-field and far-field models -- 10. Effects of oil properties and slick thickness on dispersant field effectiveness and oil fate -- 11. Far-field modeling of a deep-sea blowout: sensitivity studies of initial conditions, biodegradation, sedimentation and sub-surface dispersant injection on surface slicks and oil plume concentrations -- Section IV. Oil Spill Records in Deep Sea Sediments -- 12. Formation and sinking of MOSSFA (Marine Oil Snow Sedimentation and Flocculent Accumulation) events: Past and Present -- 13. The sedimentary record of MOSSFA events in the Gulf of Mexico: A comparison of the Deepwater Horizon (2010) and Ixtoc 1 (1979) oil spills -- 14. Characterization of the sedimentation associated with the Deepwater Horizon blowout: depositional pulse, initial response, and stabilization -- 15. Applications of FTICR-MS in oil spill studies -- 16. Changes in redox conditions of surface sediments following the Deepwater Horizon and Ixtoc 1 events -- 17. Long-term preservation of oil spill events in sediments: the case for the Deepwater Horizon spill in the northern Gulf of Mexico -- 18. Effect of marine snow on microbial oil degradation -- 19. Molecular legacy of the 1979 Ixtoc 1 oil spill in deep-sea sediments of the southern Gulf of Mexico -- 20. 40 years of weathering of coastal oil residues in the southern Gulf of Mexico -- Section V. Impacts of Deep Spills on Plankton, Fishes, and Protected Resources -- 21. Overview of ecological impacts of deep spills -- 22. Deep-sea benthic faunal impacts and community evolution before, during and after the Deepwater Horizon event -- 23. Impact and resilience of benthic foraminifera in the aftermath of the Deepwater Horizon and Ixtoc 1 oil spills -- 24. Chronic sublethal effects observed in wild caught fish following two major oil spills in the Gulf of Mexico: Deepwater Horizon and Ixtoc 1 -- 25. Impacts of deep spills on fish and fisheries -- 26. Impacts of the Deepwater Horizon oil spill on marine mammals and sea turtles -- Section VI. Toxicology of Deep Oil Spills -- 27. Ecotoxicology of deep ocean spills -- 28 A synthesis of Deepwater Horizon oil, chemical dispersant and chemically dispersed oil aquatic standard laboratory acute and chronic toxicity studies -- 29. Digging deeper than LC/EC50: non-traditional endpoints and non-model species in oil spill toxicology -- 30. Genetics and oil: transcriptomics, epigenetics and population genomics as tools to understand animal responses to exposure across different time scales -- Section VI. I Ecosystem-level modeling of deep oil spill impacts -- 31. A synthesis of top down and bottom up impacts of the Deepwater Horizon oil spill using ecosystem modeling -- 32. Comparing ecosystem model outcomes between Ixtoc 1 and Deepwater Horizon oil spills -- 33. Effects of the Deepwater Horizon oil spill on Human Communities: Catch and Economic Impacts -- Section VIII. Summary -- 34. Summary of Major Themes – Deep Oil Spills -- Index.

Abstract: 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.

Type of Medium: Online Resource

Pages: XIV, 611 p. 152 illus., 110 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9783030116057

URL: https://doi.org/10.1007/978-3-030-11605-7

DOI: 10.1007/978-3-030-11605-7

DDC: 551.48

Language: English

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Scenarios and Responses to Future Deep Oil Spills : Fighting the Next War (2020)

Murawski, Steven A. [editor.] ; Ainsworth, Cameron H. [editor.] ; Gilbert, Sherryl. [editor.] ; [et al.]

Cham :Springer International Publishing :

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Description / Table of Contents: Section I Overview -- 1 Introduction to the volume -- 2 Deep-water oil and gas production in the Gulf of Mexico, and related global trends -- 3 Spilled oil composition and the natural carbon cycle: The true drivers of environmental fate and effects of oil spills -- Section II Geological, Chemical, Ecological and Physical Oceanographic Settings and Baselines for Deep Oil Spills in the Gulf of Mexico -- 4 An overview of the geologic origins of hydrocarbons and production trends in the Gulf of Mexico -- 5 Gulf of Mexico (GoM) bottom sediments and depositional processes: A baseline for future oil spills -- 6 Benthic faunal baselines in the Gulf of Mexico: A precursor to evaluate future impacts -- 7 Linking abiotic variables with macrofaunal and meiofaunal abundance and community -- 8 The asphalt ecosystem of the southern Gulf of Mexico: abyssal habitats across space and time -- 9 Geochemical and faunal characterization in the sediments off the Cuban north and northwest coast -- 10 Mapping isotopic and dissolved organic matter baselines in waters and sediments of Gulf of Mexico -- 11 Toward a predictive understanding of the benthic microbial community response to oiling on the northern Gulf of Mexico coast -- 12 Combining isoscapes with tissue-specific isotope records to re-create the geographic histories of fish -- 13 The utility of stable and radio isotopes in fish tissues as biogeochemical tracers of marine oil spill food web effects -- 14 Modernizing protocols for aquatic toxicity testing of oil and dispersant -- 15 Polycyclic aromatic hydrocarbon baselines in Gulf of Mexico fishes -- 16 Case Study: Using a combined laboratory, field, and modeling approach to assess oil spill impacts -- Section III Simulations of Future Deep Spills -- 17 Testing the effect of MOSSFA (Marine Oil Snow Sedimentation and Flocculent Accumulation) events in benthic microcosms -- 18 Physical processes influencing the sedimentation and lateral transport of MOSSFA in the NE Gulf of Mexico -- 19 Simulating deep oil spills beyond the Gulf of Mexico -- Section IV Comparisons of likely impacts from simulated spills -- 20 Comparison of the spatial extent, impacts to shorelines, and ecosystem and 4-dimensional characteristics of simulated oil spills -- 21 A predictive strategy for mapping locations where future MOSSFA events are expected -- 22 Connectivity of Gulf of Mexico continental shelf fish populations and implications of simulated oil spills -- 23 Evaluating the effectiveness of fishery closures for deep oil spills using a 4-dimensional model -- 24 As Gulf oil extraction goes deeper, who is at risk? Community structure, distribution, and connectivity of the deep-pelagic fauna -- 25 Evaluating impacts of deep oil spills on oceanic marine mammals -- 26 Comparative environmental sensitivity of offshore Gulf of Mexico waters potentially impacted by ultra-deep oil well blowouts -- Section V Preparing for and Responding to the Next Deepwater Spill -- 27 Preparing for the inevitable: ecological and indigenous community impacts of oil spill-related mortality in the United States Arctic marine ecosystem -- 28 Summary of contemporary research on use of chemical dispersants for deep sea oil spills -- 29 Perspectives on research, technology, policy and human resources for improved management of ultra-deep oil and gas resources and responses to oil spills -- Index.

Abstract: It has often been said that generals prepare for the next war by re-fighting the last. The Deepwater Horizon (DWH) oil spill was unlike any previous – an underwater well blowout 1,500 meters deep. Much has been learned in the wake of DWH and these lessons should in turn be applied to both similar oil spill scenarios and those arising from “frontier” explorations by the marine oil industry. The next deep oil well blowout may be at 3,000 meters or even deeper. This volume summarizes regional (Gulf of Mexico) and global megatrends in marine oil exploration and production. Research in a number of key areas including the behavior of oil and gas under extreme pressure, impacts on biological resources of the deep sea, and the fate of oil and gas released in spills is synthesized. A number of deep oil spills are simulated with detailed computer models, and the likely effects of the spills and potential mitigation measures used to combat them are compared. Recommended changes in policies governing marine oil exploration and development are proposed, as well as additional research to close critical and emerging knowledge gaps. This volume synthesizes state-of-the-art research in deep oil spill behavior and response. It is thus relevant for government and industry oil spill responders, policy formulators and implementers, and academics and students desiring an in-depth and balanced overview of key issues and uncertainties surrounding the quest for deep oil and potential impacts on the environment.

Type of Medium: Online Resource

Pages: XII, 542 p. 167 illus., 138 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9783030129637

URL: https://doi.org/10.1007/978-3-030-12963-7

DOI: 10.1007/978-3-030-12963-7

DDC: 551.48

Language: English

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Limnology in developing countries (1995)

Gopal, B. [Hrsg.] ; Wetzel, R. G. [Hrsg.]

New Dehli

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Call number: AWI G3-00-0173

Type of Medium: Monograph available for loan

Pages: 230 S. : Ill.

ISBN: 818604714X

Branch Library: AWI Library

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Effectiveness of FUYO-1 (JERS)/OPS-SWIR bands for mineral exploration : final report (1995)

Kaufmann, H. ; Berger, M. ; Wetzel, H.-U.

Potsdam : Geoforschungszentrum

Associated volumes

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Call number: 21/STR 95/24

In: Scientific technical report

Type of Medium: GFZ publications

Pages: 16, [20] Bl.

Series Statement: Scientific technical report / Geoforschungszentrum Potsdam 95,24

Classification:

Photogrammetry, Remote Sensing

Location: Reading room

Branch Library: GFZ Library

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Sizing the earth: Recognition of economic carrying capacity (1995)

Wetzel, Kurt R. ; Wetzel, John F.

Elsevier

In: Ecological Economics. 1995; 12(1): 13-21. Published 1995 Jan 01. doi: 10.1016/0921-8009(94)00019-r.

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Publication Date: 1995-01-01

Print ISSN: 0921-8009

Electronic ISSN: 1873-6106

Topics: Energy, Environment Protection, Nuclear Power Engineering , Economics

Published by Elsevier

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Prolines and Aamyloidogenicity in Fragments of the Alzheimer's Peptide .beta./A4 (1995)

Wood, Stephen J. ; Wetzel, Ronald ; Martin, John D. ; [et al.]

s.l. : American Chemical Society

Biochemistry 34 (1995), S. 724-730

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ISSN: 1520-4995

Source: ACS Legacy Archives

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/bi00003a003

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Aspartame Degradation in Solution As Impacted by Buffer Type and Concentration (1995)

Bell, Leonard N. ; Wetzel, Clinton R.

s.l. : American Chemical Society

Journal of agricultural and food chemistry 43 (1995), S. 2608-2612

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ISSN: 1520-5118

Source: ACS Legacy Archives

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition , Process Engineering, Biotechnology, Nutrition Technology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/jf00058a010

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Spatial and temporal variation of resource limitation in Chesapeake Bay (1999)

Fisher, T. R. ; Gustafson, A. B. ; Sellner, K. ; [et al.]

Springer

Marine biology 133 (1999), S. 763-778

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract We report nutrient addition bioassays at 18 stations in Chesapeake Bay (USA) to assess resources limiting phytoplankton growth. Data were pooled from several sampling programs conducted from 1989 to 1994. Spatially, light and P limitation declined from low salinity regions to high salinity regions, as N limitation increased. This spatial pattern was driven primarily by freshwater inflows with high N/P and seawater inflows with low N/P. Seasonally, there was a marked progression of winter light limitation, spring P limitation, and summer N limitation at mesohaline and polyhaline stations. The seasonal pattern appeared to be caused by temperature, mixing, river discharge, and sediment P fluxes. At high salinity stations, we also observed winter N limitation (caused by DIN depletion prior to spring nitrate delivery), and at lower salinity stations there was fall P limitation (caused by reaeration of bottom sediments). At tidal fresh stations, turbidity and nutrient concentrations resulted in continuous light limitation, except at some stations in summer. Interannual decreases in light limitation and increases in N and P limitation appear to represent improvements in water quality.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002270050518

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Oxygen/sulfide regime and nematode fauna associated with Arenicola marina burrows: new insights in the thiobios case (1995)

Wetzel, M. A. ; Jensen, P. ; Giere, O.

Springer

Marine biology 124 (1995), S. 301-312

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Profiles of oxygen and sulfide around the burrows of the lugworm, Arenicola marina, from a North Sea tidal flat were examined with microelectrodes, and the steep gradients were related to the microdistribution of nematodes. Around the tail shaft free oxygen penetrated only 2 mm into the burrow wall, coinciding with a bright zone sharply limited by the ambient black sediment. Contrastingly, in normal bottoms of the tidal flat (“controls”) only the surface of the bright zone was supplied with free oxygen. Here, the dark colouration coincided with the presence of free hydrogen sulfide. Around the tail shaft the nearest free hydrogen sulfide was detected 6 mm from the burrow wall leaving several millimetres of black sediment without measurable free sulfide. We discuss how these divergencies may relate to the stability of the oxygen/sulfide gradients and the course of time involved in their formation. A total of 54 nematode species were identified. Based on non-metric Multidimensional Scaling Ordination, four nematode assemblages corresponded to four microhabitats of the A. marina burrow: the funnel, the feeding pocket, the tail shaft and the feacal cast. The tail shaft assemblage (oxic plus partly anoxic zones) was similar to that of the anoxic zone of the control sediment. It was dominated by the most abundant nematode in the present study, Metalinhomoeus biformis (mean abundance in tail shaft 202 indx10 cm-3). Adults of common nematode species from sulfidic microhabitats had a significantly higher length/diameter ratio than those inhabiting the oxic zone of the control sediment (p〈0.001). The chemical recordings and metric analysis indicate that these slender nematodes around the A. marina tail shaft and in the reduced horizons of the reference sites represent thiobiotic assemblages, as compared to the shorter and stouter oxybiotic species characterising the assemblages from the surface zone and (partly) the funnel.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00347134

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[3H]Leucine incorporation methodology to estimate epiphytic bacterial biomass production (1995)

Thomaz, S. M. ; Wetzel, R. G.

Springer

Microbial ecology 29 (1995), S. 63-70

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ISSN: 1432-184X

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract [3H]leucine incorporation into protein, as a method of measuring bacterial biomass production (BBP), was adapted to epiphytic bacteria. Incorporation of the isotope was saturated at concentrations higher than 400 nM. Disruption of thicker biofilms by sonication resulted in higher values of BBP and ratios of BBP/biomass when compared to those of intact biofilm. Thin biofilms formed early in the decomposition process did not show this phenomenon. These results support to evidence that more internally located cells of the matrices either have greatly reduced access to the leucine from the overlying medium or that fast recycling of leucine occurs in the biofilm.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00217423

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