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Scientists conducted field and laboratory experiments using oil and Corexit dispersant to uncover the reasons harmful algal blooms, also known as Red Tides, can occur after an oil spill.
Researchers described field methods and observations using the Ship-Tethered Aerostat Remote Sensing System (STARSS) to better understand how buoyant material moves and disperses on the ocean’s surface.
Authorities closed large portions of the Gulf of Mexico following Deepwater Horizon to minimize oil contamination of fish and seafood products.
Scientists assessed the dynamics of heat and momentum exchange between the ocean and atmosphere to better understand how these factors influence Gulf of Mexico circulation.
The Deepwater Horizon oil spill overlapped with the spawning activities of many ecologically and economically important tuna species.
Scientists analyzed effects from non-weathered source oil (collected directly over the Deepwater Horizon wellhead) and weathered slick oil (collected from surface skimming) on the microRNAs of mahi-mahi embryos.
Estuarine marshes in coastal Louisiana face numerous threats such as sea-level rise, salt water intrusion, and contamination threats such as oil spills that can lead to marsh loss and changing habitats.
Scientists traced and analyzed methane bubbles as they ascended from a deep seafloor seep to the ocean’s surface and compared results to two computer models’ output to better understand methane dissolution processes.