News Release

New results of Deepwater Horizon research to protect marine life against future oil spills

Peer-Reviewed Publication

University of South Florida (USF Health)

Data Collected Throughout the Gulf of Mexico (2011-2017)

image: This map portrays sampling locations and catch rates (number of fish caught per 1000 hooks fished per hour). view more 

Credit: University of South Florida

St. Petersburg, Fla. (June 27, 2018)- The University of South Florida continues to play an integral role in discovering the extent of damage caused by the 2010 Deepwater Horizon oil spill. Researchers just published results of a seven-year study, recording the most comprehensive data available of marine life throughout the entire Gulf of Mexico.

This is significant, as lack of baseline data has limited researchers' abilities to fully understand the oil spill's impact. The new data will serve as a tremendous asset for future research. The study published in the journal Marine and Coastal Fisheries outlines the marine makeup of the Gulf from the U.S. to Mexico and Cuba.

"Neither the fish nor oil spills know national boundaries," said principal investigator Steve Murawski, PhD, professor at the University of South Florida College of Marine Science. "Providing seamless data for the Gulf as a whole is imperative if we are to prepare adequately for future oil spills."

Throughout the course of 12 separate research expeditions, marine biologists systematically caught 15,000 fish of 166 species from 343 locations. They divided the Gulf into six zones, to help best differentiate population changes. The most notable decline since the disaster is of the red snapper and southern hake in the northern Gulf, the location of the Deepwater Horizon oil spill.

Overall, fish were most abundant in the northern and northwestern Gulf. Much of that has to do with increased fishery protections and the area producing more phytoplankton, the foundation of the aquatic food web. The average sizes of fish were larger there compared to the West Florida Shelf, Yucatan Peninsula and Cuba where fewer large predators exist. The species compositions and size data provide a basis for evaluating resiliency to overfishing, climate change, pollution, habitat loss, invasive species and other stressors on fish populations.

Specimens from the surveys continue to be tested for oil residues, other organic pollutants and heavy metals. Overall the degree of oil contamination of fish from the northern Gulf continues to decline, although no areas assessed so far are oil free. The goal of this research is to establish just where the oil contamination baseline is in the aftermath of Deepwater Horizon.

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In addition to USF, the team consisted of researchers from Texas A&M University-Corpus Christi, National Autonomous University of Mexico and the University of Havana. The research was funded by the Gulf of Mexico Research Initiative (GoMRI), which was established through a $500 million financial commitment from BP to study the environmental impact of Deepwater Horizon.

Top five species:

    1. Atlantic Sharpnose Shark (2,156)

    2. Red Snapper (1,710)

    3. King Snake Eel (1,414)

    4. Tilefish (1,274)

    5. Gulf Smoothhound (1,080)

Top species by region:

    North-Central- Atlantic Sharpnose Shark (1,881)

    Northwestern- Red snapper (1,180)

    West Florida Shelf- Red Grouper (803)

    Southwestern- Cuban Dogfish (273)

    Yucatan Peninsula- Blackline tilefish (135)

    Cuba- Red Hind (98)


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