Member Since 2008
Claire B. Paris
Professor, Rosenstiel School of Marine and Atmospheric Science
AGU Research
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How Wayfinders Modulate Dispersal Kernels and Population Connectivity - A Modeling Perspective
OCEAN SCIENCES 2020
physical-biological interactions | 21 february 2020
Ana Carolina Vaz, Claire B. Paris
Mobile marine species are able to navigate in their environment, making use of a range of cues to accomplish distinct tasks, such as to locate forage ...
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Using Remotely Transmitted Accelerometer Data Collected from Pop-Up Satellite Archival Tags to Predict Spawning in Wild Mahi-Mahi (Coryphaena hippurus)
OCEAN SCIENCES 2020
marine ecology and biodiversity | 21 february 2020
Lela Schlenker, Elizabeth Babcock, Daniel Benetti,...
Mahi-mahi (Coryphaena hippurus) is a highly migratory ecologically and commercially important pelagic fish species that inhabit tropical and sub-tropi...
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Caribbean Dispersal Patterns Vary with Larval Fish Behavior, Hydrography, and Habitat Availability
OCEAN SCIENCES 2020
physical-biological interactions | 20 february 2020
Christina Hernandez, Robert Cowen, Benjamin Jones,...
Biophysical particle-tracking modeling, when combined with field data on biological and behavioral traits of larval reef fish, provides valuable insig...
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Advances in modeling ultra deep-sea oil spills
OCEAN SCIENCES 2020
physical oceanography: mesoscale and smaller | 20 february 2020
Claire B. Paris, Zachary Aman, Robin Faillettaz, N...
Increased world demand in energy has lead to the exploration and exploitation of oil and gas reservoirs in ultra deep waters. The Deepwater Horizon (D...
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Simulating Deep Oil Spills Beyond the Gulf of Mexico
OCEAN SCIENCES 2020
social-ocean science interactions and sdgs | 19 february 2020
Claire B. Paris, Zachary Aman, Igal Berenshtein, R...
As deep-sea oil exploitation increases worldwide, the probability of another Deepwater Horizon (DWH) blowout also increases. The DWH disaster directly...
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The Sedimentation and Lateral Transport of Oil-Associated Marine Snow During and After the Deepwater Horizon Oil Spill
OCEAN SCIENCES 2020
ocean biology and biogeochemistry | 17 february 2020
Kendra L. Daly, Claire B. Paris, Ana Carolina Vaz
The sedimentation of oil-associated marine snow (MOS) was shown to be an important pathway by which Deepwater Horizon (DWH) oil was removed from the w...
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Tracking solar radiation doses in moving aquatic organisms and particles: a novel irradiance Lagrangian module of the Connectivity Modeling System
OCEAN SCIENCES 2020
ocean modeling | 17 february 2020
Robin Faillettaz, Claire B. Paris, Ana Carolina Va...
While water and solar radiations are the basis of life, short radiation wavelengths such as ultraviolet radiations (UVR, λ < 400 nm) are some of th...
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New Visions for Oil Spill Preparedness from the Perspective of the Deepwater Horizon Blowout, the Sediment Slumping at Taylor Energy, and Continued Ultra-Deep Oil Exploration and Production in Frontier Region
LESSONS LEARNED AND GLOBAL APPLICATIONS FROM DEEPWATER HORIZON I POSTERS
ocean sciences | 10 december 2019
David J. Hollander, Steven A. Murawski, Claire B. ...
The DWH blowout and Taylor Energy sediment-slump incidents raise questions regarding siting of energy facilities and preparedness for large-scale and ...
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