By giving us your feedback, you can help improve your www.NOAA.gov experience. This short, anonymous survey only takes just a few minutes to complete 11 questions. Thank you for your input!Give my feedback
August 4, 2011
Map of the Dead Zone 2011.
Download here. (Credit: With permission from LUMCON)
NOAA-supported scientists found the size of this year’s Gulf of Mexico dead zone to be 6,765 square miles. Researchers had predicted the potential for a record sized dead zone between 8,500 and 9,421 square miles due to the spring flooding of the Mississippi River and the associated large loads of nutrients running off into the Gulf, but strong winds and waves associated with Tropical Storm Don disrupted the western portion of the dead zone.
The research cruise, led by Nancy Rabalais, Ph.D., executive director of the Louisiana Universities Marine Consortium, found this year’s dead zone to be nearly equal to the land area of the state of New Jersey. The average size of the dead, or hypoxic, zone over the past five years has been 6,688 square miles, very close to this year’s measurement and much larger than the 1,900 square mile goal set by the Gulf of Mexico/Mississippi River Watershed Nutrient Task Force. Last year’s dead zone measured approximately 7,722 square miles.
In addition to surveys in the traditional region of the dead zone, Rabalais’ research team documented a large area of hypoxia east of the Mississippi River in mid-July.
“Although Tropical Storm Don disrupted part of the hypoxic zone, our monitoring over the past several months indicated the spring floods expanded the dead zone region,” said Rabalais. “However, sampling the hypoxic bottom layer on a ship rolling in 6-10 foot waves presented safety and sampling issues that interfered with precise measurements at some stations. For these reasons, the size of the measured hypoxic zone was smaller than just before the storm, and is probably under-estimated.”
The dead zone is fueled by nutrient runoff from agricultural and other human activities in the Mississippi River watershed, which stimulates an overgrowth of algae that sinks, decomposes and consumes most of the life-giving oxygen supply in bottom waters. The hypoxic zone off the coast of Louisiana and Texas forms each summer and threatens valuable commercial and recreational Gulf fisheries.
These fisheries are critical to the economy. For example, in 2009, the dockside value of commercial fisheries in the Gulf was $629 million. Nearly three million recreational fishers, taking 22 million fishing trips, further contributed more than $1 billion to the Gulf economy.
“Despite fluctuations in size due to each year’s weather conditions, these chronic, recurring hypoxic zones every summer represent a significant threat to Gulf ecosystems,” said Robert Magnien, Ph.D., director of NOAA’s Center for Sponsored Coastal Ocean Research. “Until we achieve a substantial reduction in nutrient pollution from the Mississippi River watershed, we will continue to experience extended periods of time each year when critically-needed habitat is unavailable for many marine organisms.”
Earlier this summer, NOAA-sponsored forecast models developed by R. Eugene Turner, Ph.D., Louisiana State University and Donald Scavia, Ph.D., University of Michigan, predicted that the hypoxic zone would be the largest on record. Despite the presence of tropical storms, which can temporarily provide oxygen to bottom waters through mixing of the water column, the continued high discharge from the Mississippi River after the prediction provided strong conditions for a large dead zone.
The models used to forecast the area of the dead zone are most influenced by the amount of May nitrate-nitrogen delivered to the Gulf from the Mississippi and Atchafalaya Rivers and are constructed to inform managers of the underlying causes of the dead zone and the effectiveness of alternative approaches to mitigate the problem over the long-term. These models currently do not incorporate short-term variability due to weather patterns that can affect the timing or positioning of the hypoxic zone in any given year.
Prior to the Louisiana Consortium cruise, a NOAA-supported Texas A&M survey, led by Steven DiMarco, Ph.D., found a moderately sized dead zone during a June shelf-wide survey, and subsequent measurements during NOAA’s Southeast Monitoring and Assessment Program's summer survey indicated the dead zone was growing larger in the areas that were likely re-oxygenated by Tropical Storm Don. Texas A&M will be conducting a NOAA-funded follow-up cruise in mid-August to provide an update on the size of the dead zone as scientists work to understand size fluctuations and duration of hypoxic conditions in the Gulf. The July cruise, however is the only survey mandated by the Hypoxia Task Force to determine the annual extent of the dead zone.
NOAA’s mission is to understand and predict changes in the Earth's environment, from the depths of the ocean to the surface of the sun, and to conserve and manage our coastal and marine resources. Join us on Facebook, Twitter and our other social media channels.