GoMRI
Investigating the effect of oil spills
on the environment and public health.
on the environment and public health.
2022 | |
| Wise, S. A., Rodgers, R. P., Reddy, C. M., Nelson, R. K., Kujawinski, E. B., Wade, T. L., et al. (2022). Advances in Chemical Analysis of Oil Spills Since the Deepwater Horizon Disaster. Critical Reviews in Analytical Chemistry, . |
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2021 | |
| Bailey, D., Dannreuther, M. N., Maung-Douglass, E., Partyka, M., Sempier, S., Skelton, T., et al. (2021). Dispersant use and impacts after the Deepwater Horizon oil spill. Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-21-008). |
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| Cui, L., Harris, C. K., & Tarpley, D. R. N. (2021). Formation of Oil-Particle-Aggregates: Numerical Model Formulation and Calibration. Front. Mar. Sci., 8, E629476. |
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| Diercks, A. R., Romero, I. C., Larson, R. A., Schwing, P., Harris, A., Bosman, S., et al. (2021). Resuspension, Redistribution and Deposition of oil-residues to offshore Depocenters after the Deepwater Horizon oil spill. Front. Mar. Sci., 8, E630183. |
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| Dissanayake, A. L., Rezvani, M., Socolofsky, S. A., Bierlein, K. A., & Little, J. C. (2021). Bubble Plume Integral Model for Line-Source Diffusers in Ambient Stratification. J. Hydraul. Eng., 147(5), 04021015. |
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| Farrington, J., Overton, E., & Passow, U. (2021). Biogeochemical Processes Affecting the Fate of Discharged Deepwater Horizon Gas and Oil: New Insights and Remaining Gaps in Our Understanding. Oceanog, 34(1), 76–97. |
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| Kamalanathan, M., Schwehr, K. A., Labont?, J. M., Taylor, C., Bergen, C., Patterson, N., et al. (2021). The Interplay of Phototrophic and Heterotrophic Microbes Under Oil Exposure: A Microcosm Study. Front. Microbiol., 12, E675328. |
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| Maung-Douglass, E., Bailey, D., Partyka, M., Sempier, S., Skelton, T., & Wilson, M. (2021). The Fate of Oil: Insights after Deepwater Horizon. Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-21-006). |
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| Passow, U., & Overton, E. B. (2021). The Complexity of Spills: The Fate of theDeepwater HorizonOil. Annu. Rev. Mar. Sci., 13(1), 109–136. |
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| Pesch, S., Schulz, S., Aboud, N., & Schl?ter, M. (2021). Experimental Investigation of Pure and Gas-Saturated Crude Oil Viscosity and Density from 268 to 308 K and Up to 23 MPa. Journal of Chemical & Engineering Data, 66(6), 2355–2365. |
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| Quigg, A., Farrington, J., Gilbert, S., Murawski, S., & John, V. (2021). A Decade of GoMRI Dispersant Science: Lessons Learned and Recommendations for the Future. Oceanog, 34(1), 98–111. |
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| Quigg, A., Santschi, P. H., Xu, C., Ziervogel, K., Kamalanathan, M., Chin, W. - C., et al. (2021). Aggregation and Degradation of Dispersants and Oil by Microbial Exopolymers (ADDOMEx): Toward a Synthesis of Processes and Pathways of Marine Oil Snow Formation in Determining the Fate of Hydrocarbons. Front. Mar. Sci., 8, E642160. |
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| Rogers, K. L., Bosman, S. H., Wildermann, N., Rosenheim, B. E., Montoya, J. P., Hollander, D., et al. (2021). Mapping spatial and temporal variation of seafloor organic matter Δ14C and δ13C in the Northern Gulf of Mexico following the Deepwater Horizon Oil Spill. Marine Pollution Bulletin, 164, 112076. |
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| Romero, I., Chanton, J., Brooks, G. R., Bosman, S., Larson, R. A., Harris, A., et al. (2021). Molecular markers of biogenic and oil-derived hydrocarbons in deep-sea sediments following the Deepwater Horizon spill. Front. Mar. Sci., 8, E637970. |
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| Ross, J., Hollander, D., Saupe, S., Burd, A. B., Gilbert, S., & Quigg, A. (2021). Integrating marine oil snow and MOSSFA into oil spill response and damage assessment. Marine Pollution Bulletin, 165, 112025. |
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| Rullkötter, J., & Farrington, J. (2021). What Was Released? Assessing the Physical Properties and Chemical Composition of Petroleum and Products of Burned Oil. Oceanog, 34(1), 44–57. |
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| Schwing, P. T., Machain-Castillo, M. L., Brooks, G. R., Larson, R. A., Fillingham, J. N., Sanchez-Cabeza, J. A., et al. (2021). Multi-proxy assessment of recent regional-scale events recorded in Southern Gulf of Mexico sediments. Marine Geology, 434, 106434. |
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| Vaz, A. C., Faillettaz, R., & Paris, C. B. (2021). A Coupled Lagrangian-Earth System Model for Predicting Oil Photooxidation. Front. Mar. Sci., 8, E576747. |
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| Xia, J., Zhang, W., Ferguson, A. C., Mena, K. D., Ozgokmen, T. M., & Solo-Gabriele, H. M. (2021). A novel method to evaluate chemical concentrations in muddy and sandy coastal regions before and after oil exposures. Environmental Pollution, 269, 116102. |
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2020 | |
| Bracco, A., Paris, C. B., Esbaugh, A. J., Frasier, K., Joye, S. B., Liu, G., et al. (2020). Transport, Fate and Impacts of the Deep Plume of Petroleum Hydrocarbons Formed During the Macondo Blowout. Front. Mar. Sci., 7, 542147. |
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| Johansen, C., Macelloni, L., Natter, M., Silva, M., Woosley, M., Woolsey, A., et al. (2020). Hydrocarbon migration pathway and methane budget for a Gulf of Mexico natural seep site: Green Canyon 600. Earth and Planetary Science Letters, 545, 116411. |
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| Panchal, A., Rahman, N., Konnova, S., Fakhrullin, R., Zhang, D., Blake, D., et al. (2020). Clay Nanotube Liquid Marbles Enhanced with Inner Biofilm Formation for the Encapsulation and Storage of Bacteria at Room Temperature. ACS Appl. Nano Mater., 3(2), 1263?1271. |
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| Santana, A., Comas, A., Wise, S., Wilson, W. B., and,, & Campiglia, A. D. (2020). Instrumental improvements for the trace analysis of structural isomers of polycyclic aromatic hydrocarbons with molecular mass 302 Da. Analytica Chimica Acta, 1100, 163–173. |
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| Santschi, P. H., Xu, C., Schwehr, K. A., Lin, P., Sun, L., Chin, W. - C., et al. (2020). Can the protein/carbohydrate (P/C) ratio of exopolymeric substances (EPS) be used as a proxy for their 'stickiness' and aggregation propensity? Marine Chemistry, 218, 103734. |
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| Wang, B., Jun, I., Socolofsky, S. A., DiMarco, S., & Kessler, J. (2020). Dynamics of gas bubbles from a submarine hydrocarbon seep within the hydrate stability zone. Geophys. Res. Lett., 47(18). |
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| Ward, C., Reddy, C., & Overton, E. (2020). Why Sunlight Matters for Marine Oil Spills. Eos, 101. |
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| Ward, C. P., & Overton, E. B. (2020). How the 2010 Deepwater Horizon spill reshaped our understanding of crude oil photochemical weathering at sea: a past, present, and future perspective. Environ. Sci.: Processes Impacts, 22(5), 1125–1138. |
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2019 | |
| Bociu, I., Shin, B., Wells, W. B., Kostka, J. E., Konstantinidis, K. T., & Huettel, M. (2019). Decomposition of sediment-oil-agglomerates in a Gulf of Mexico sandy beach. Sci Rep, 9(1). |
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| Chanton, J. P., Jaggi, A., Radovic, J. R., Rosenheim, B., Walker, B. D., Larter, S. R., et al. (2019). Mapping isotopic and dissolved organic matter baselines in waters and sediments of Gulf of Mexico. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Scenarios and Responses to Future Deep Oil Spills: Fighting the Next War (pp. 160–181). Springer International. |
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| Davenport, E., Bracken, L., Beresford, S., & Conover, M. (2019). The Story of Oil in the Gulf of Mexico: Where Did the Oil Go? Current: The Journal of Marine Education, 33(1), 7–16. |
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| Farinmade, A., Ojo, O. F., Trout, J., He, J., John, V., Blake, D. A., et al. (2019). Targeted and Stimulus-Responsive Delivery of Surfactant to the Oil-Water Interface for Applications in Oil Spill Remediation. ACS Appl. Mater. Interfaces, 12(1), 1840–1849. |
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| Jaggi, A., Radovic, J. R., Snowdon, L. R., Larter, S. R., & Oldenburg, T. B. P. (2019). Composition of the dissolved organic matter produced during in situ burning of spilled oil. Organic Geochemistry, 138, 103926. |
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| Jaggi, A., Snowdon, R. W., Radovic, J., Stopford, A., Oldenburg, T. B. P., & Larter, S. R. (2019). Partitioning of Organics Between Oil and Water Phases with and Without the Application of Dispersants. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Deep Oil Spills – Facts, Fate, and Effects (pp. 125–138). Springer International. |
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| Kostka, J. E., Joye, S. B., Overholt, W., Bubenheim, P., Hackbusch, S., Larter, S. R., et al. (2019). Biodegradation of Petroleum Hydrocarbons in the Deep Sea. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Deep Oil Spills – Facts, Fate, and Effects (pp. 107–124). Springer International. |
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| Langenhoff, A. A. M., Rahsepar, S., van Eenennaam, J. S., Radovic, J. R., Oldenburg, T. B. P., Foekema, E., et al. (2019). Effect of Marine Snow on Microbial Oil Degradation. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Deep Oil Spills – Facts, Fate, and Effects (pp. 301–311). Springer International. |
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| Lincoln, S. A., Radovic, J. R., Gracia, A., Jaggi, A., Oldenburg, T. B. P., Larter, S. R., et al. (2019). Molecular Legacy of the 1979 Ixtoc 1 Oil Spill in Deep-Sea Sediments of the Southern Gulf of Mexico. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Deep Oil Spills – Facts, Fate, and Effects (pp. 312–327). Springer International. |
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| Maung-Douglass, E., Graham, L., Hale, C., Sempier, S., Skelton, T., Swann, L., et al. (2019). Frequently Asked Questions: Dispersants Edition. Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-19-001). |
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| Murawski, S. A., Schlüter, M., Paris, C. B., & Aman, Z. M. (2019). Summary of Contemporary Research on the Use of Chemical Dispersants for Deep-Sea Oil Spills. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Scenarios and Responses to Future Deep Oil Spills: Fighting the Next War (pp. 494–512). Springer International. |
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| Murawski, S. A., Schlüter, M., Paris, C. B., & Aman, Z. M. (2019). Resolving the dilemma of dispersant use for deep oil spill response. Environ. Res. Lett., 14(9), 091002. |
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| Murk, A. J., Hollander, D., Chen, S., Hu, C., Liu, Y., Vonk, S. M., et al. (2019). A predictive strategy for mapping locations where future MOSSFA events are expected. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Scenarios and Responses to Future Deep Oil Spills: Fighting the Next War (pp. 355–368). Springer International. |
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| Murray, K. J., Boehm, P. D., & Prince, R. C. (2019). The Importance of Understanding Transport and Degradation of Oil and Gasses from Deep-Sea Blowouts. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Deep Oil Spills – Facts, Fate, and Effects (pp. 86–106). Springer International. |
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| Ojo, O. F., Farinmade, A., Trout, J., Omarova, M., He, J., John, V., et al. (2019). Stoppers and Skins on Clay Nanotubes Help Stabilize Oil-in-Water Emulsions and Modulate the Release of Encapsulated Surfactants. ACS Appl. Nano Mater., 2(6), 3490–3500. |
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| Oldenburg, T. B. P., Jaeger, P., Gros, J., Socolofsky, S. A., Pesch, S., Radovic, J. R., et al. (2019). Physical and Chemical Properties of Oil and Gas Under Reservoir and Deep-Sea Conditions. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Deep Oil Spills – Facts, Fate, and Effects (pp. 25–42). Springer International. |
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| Omarova, M., Swientoniewski, L. T., Mkam Tsengam, I. K., Blake, D. A., John, V., McCormick, A., et al. (2019). Biofilm Formation by Hydrocarbon-Degrading Marine Bacteria and Its Effects on Oil Dispersion. ACS Sustainable Chem. Eng., 7(17), 14490–14499. |
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| Overton, E. B., Wetzel, D. L., Wickliffe, J. K., & Adhikari, P. (2019). Spilled Oil Composition and the Natural Carbon Cycle: The True Drivers of Environmental Fate and Effects of Oil Spills. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Scenarios and Responses to Future Deep Oil Spills: Fighting the Next War (pp. 33–56). Springer International. |
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| Perlin, N., Paris, C. B., Berenshtein, I., Vaz, A. C., Faillettaz, R., Aman, Z. M., et al. (2019). Far-Field Modeling of a Deep-Sea Blowout: Sensitivity Studies of Initial Conditions, Biodegradation, Sedimentation, and Subsurface Dispersant Injection on Surface Slicks and Oil Plume Concentrations. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Deep Oil Spills – Facts, Fate, and Effects (pp. 170–192). Springer International. |
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| Radovic, J., Romero, I. C., Oldenburg, T. B. P., Larter, S., & Tunnell, J. W. (2019). 40 Years of Weathering of Coastal Oil Residues in the Southern Gulf of Mexico. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Deep Oil Spills – Facts, Fate, and Effects (pp. 328–340). Springer International. |
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| Radovic, J. R., Jaggi, A., Silva, R. C., Snowdon, R., Waggoner, D. C., Hatcher, P. G., et al. (2019). Applications of FTICR-MS in Oil Spill Studies. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Deep Oil Spills – Facts, Fate, and Effects (pp. 253–268). Springer International. |
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| Raimondo, S., Awkerman, J. A., Yee, S., & Barron, M. G. (2019). Case Study: Using a Combined Laboratory, Field, and Modeling Approach to Assess Oil Spill Impacts. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Scenarios and Responses to Future Deep Oil Spills: Fighting the Next War (pp. 272–287). Springer International. |
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| Romero, I. G., Chanton, J., Rosenheim, B., Radovic, J. R., Schwing, P., Hollander, D., et al. (2019). Long-Term Preservation of Oil Spill Events in Sediments: The Case for the Deepwater Horizon Oil Spill in the Northern Gulf of Mexico. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Deep Oil Spills – Facts, Fate, and Effects (pp. 285–300). Springer International. |
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| Wu, A., Sahiner, N., & Reed, W. F. (2019). Online monitoring of dopamine particle formation via continuous light scattering intensity measurement. European Polymer Journal, 112, 749–753. |
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| Yu, T., Swientoniewski, L. T., Omarova, M., Li, M. - C., Negulescu, I. I., Jiang, N., et al. (2019). Investigation of Amphiphilic Polypeptoid-Functionalized Halloysite Nanotubes as Emulsion Stabilizer for Oil Spill Remediation. ACS Appl. Mater. Interfaces, 11(31), 27944–27953. |
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| Zeinstra-Helfrich, M., & Murk, A. J. (2019). Effects of Oil Properties and Slick Thickness on Dispersant Field Effectiveness and Oil Fate. In S. A. Murawski, C. H. Ainsworth, S. A. Gilbert, D. J. Hollander, C. B. Paris, M. Schlüter, et al. (Eds.), Deep Oil Spills – Facts, Fate, and Effects (pp. 155–169). Springer International. |
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2018 | |
| Desai, N., Dabiri, S., & Ardekani, A. M. (2018). Nutrient uptake by chemotactic microorganisms in presence of rising oil drops. International Journal of Multiphase Flow, 108, 156–168. |
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| Huettel, M., Overholt, W. A., Kostka, J. E., Hagan, C., Kaba, J., Wells, W. B., et al. (2018). Degradation of Deepwater Horizon oil buried in a Florida beach influenced by tidal pumping. Marine Pollution Bulletin, 126, 488–500. |
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| Joye, S., Kleindienst, S., & Pena-Montenegro, T. D. (2018). SnapShot: Microbial Hydrocarbon Bioremediation. Cell, 172(6), 1336.e1. |
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| McCormick, A., & John, V. (2018). Consortium for the Molecular Engineering of Dispersant Systems (C-MEDS). mar technol soc j, 52(6), 95–98. |
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| Mohammad-Pour, G. S., Ly, R. T., Fairchild, D. C., Burnstine-Townley, A., Vazquez-Molina, D. A., Trieu, K. D., et al. (2018). Modular Design of Fluorescent Dibenzo- and Naphtho-Fluoranthenes: Structural Rearrangements and Electronic Properties. J. Org. Chem., 83(15), 8036–8053. |
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| Omarova, M., Swientoniewski, L. T., Tsengam, I. K. M., Panchal, A., Yu, T., Blake, D. A., et al. (2018). Engineered Clays as Sustainable Oil Dispersants in the Presence of Model Hydrocarbon Degrading Bacteria: The Role of Bacterial Sequestration and Biofilm Formation. ACS Sustainable Chem. Eng., 6(11), 14143–14153. |
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| Paris, C. B., Berenshtein, I., Trillo, M. L., Faillettaz, R., Olascoaga, M. J., Aman, Z. M., et al. (2018). BP Gulf Science Data Reveals Ineffectual Subsea Dispersant Injection for the Macondo Blowout. Front. Mar. Sci., 5, 389. |
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| Romero, I. C. (2018). A High-Throughput Method (ASE-GC/MS/MS/MRM) for Quantification of Multiple Hydrocarbon Compounds in Marine Environmental Samples. mar technol soc j, 52(6), 66–70. |
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| Santschi, P. H. (2018). Marine Colloids, Agents of The Self-Cleansing Capacity of Aquatic Systems: Historical Perspective and Open Questions. Marine Chemistry, 207, 124–135. |
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| Sempier, S., & Swann, L. (2018). Where Did the Oil Go? A Deepwater Horizon Fact Sheet. Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-18-003). |
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| Sempier, S., & Swann, L. (2018). Where Did the Oil Go? A Deepwater Horizon Fact Sheet [Vietnamese Translation]. Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-18-012). |
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| Sempier, S., & Swann, L. (2018). Where Did the Oil Go? A Deepwater Horizon Fact Sheet [Spanish Translation]. Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-18-013). |
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| Wilson, M., Graham, L., Hale, C., Maung-Douglass, E., Sempier, S., Skelton, T., et al. (2018). Storms and Spills [Spanish Translation]. Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-18-015). |
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2017 | |
| Maung-Douglass, E., Graham, L., Hale, C., Sempier, S., Skelton, T., Swann, L., et al. (2017). Microbes and Oil: What's the Connection? Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-18-002). |
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| Wilson, M., Graham, L., Hale, C., Maung-Douglass, E., Sempier, S., Skelton, T., et al. (2017). Deepwater Horizon: Where Did the Oil Go? Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-17-006). |
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2016 | |
| Graham, L., Hale, C., Maung-Douglass, E., Sempier, S., Swann, L., & Wilson, M. (2016). Chemical Dispersants and Their Role in Oil Spill Response. Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-15-003). |
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2015 | |
| Graham, L., Hale, C., Maung-Douglass, E., Sempier, S., Swann, L., & Wilson, M. (2015). Navigating Shifting Sands: Oil on Our Beaches. Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-16-001). |
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| Wilson, M., Graham, L., Hale, C., Maung-Douglass, E., Sempier, S., & Swann, L. (2015). Persistence, Fate, and Effectiveness of Dispersants Used During the Deepwater Horizon Oil Spill. Oil Spill Science: Sea Grant Programs of the Gulf of Mexico, (GOMSG-G-15-004). |
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