Gulf of America ‘dead zone' shrank sharply in 2025, scientists say
The Gulf of America's 'dead zone' has shrunk significantly this summer, with scientists measuring a hypoxic area of just over 4,400 square miles — roughly a third smaller than last year and far less than the long-term average, federal officials announced Wednesday.
The dead zone, a stretch of oxygen-depleted water that forms annually off the Louisiana and Texas coasts, is caused primarily by excess nutrients washing into the Gulf from the Mississippi-Atchafalaya River Basin.
This year's zone, measured during a July 20–25 survey aboard the research vessel Pelican, was 4,402 square miles — 21% smaller than NOAA's early-season estimate and the 15th smallest on record, according to NOAA-supported scientists from LSU and the Louisiana Universities Marine Consortium.
'This year's significant reduction in the Gulf of America's 'dead zone' is an encouraging sign for the future of this area,' said Laura Grimm, acting NOAA administrator. 'It highlights the dedication and impactful work of NOAA-supported scientists and partners, and serves as a testament to the effectiveness of collaborative efforts in supporting our U.S. fishermen, coastal communities, and vital marine ecosystems.'
The measured area is equivalent to roughly 2.8 million acres of bottom habitat temporarily made unavailable to marine life such as fish and shrimp due to low oxygen levels.
That marks a 30% drop from 2024, when the zone spanned a massive 6,703 square miles — more than 1.3 times the long-term average and nearly 3.5 times larger than the target goal of 1,930 square miles set by the Mississippi River/Gulf of Mexico Hypoxia Task Force.
Despite this year's improvement, the five-year running average remains high at 4,755 square miles—still more than double the federal benchmark.
Dead zones emerge when excess nutrients — mostly nitrogen and phosphorus from upstream agriculture and wastewater — fuel algae blooms. As algae die and sink, their decomposition consumes oxygen in bottom waters. Without sufficient oxygen, marine species must flee or perish.
In 2024, the area west of the Mississippi River experienced heavy hypoxia with extremely low oxygen readings and little water mixing, according to NOAA.
'The stratification of warmer surface water over cooler, saltier bottom water was strong enough to prevent oxygen replenishment,' researchers wrote in a followup report.
Some bottom waters saw oxygen drop across the lower five meters of the water column.
Even with relatively low chlorophyll readings — indicating modest live algae near the surface — researchers noted high concentrations of degraded algae and organic detritus near the seafloor, still enough to drive significant bacterial oxygen consumption.
The Mississippi River/Gulf of Mexico Hypoxia Task Force, a coalition of federal and state agencies, has worked for over two decades to reduce nutrient pollution flowing into the Gulf. The EPA established a dedicated Gulf Hypoxia Program in 2022 to accelerate these efforts.
'The Gulf of America is a national treasure that supports energy dominance, commercial fishing, American industry, and the recreation economy,' said Peggy Browne, acting assistant administrator for the EPA's Office of Water. 'I look forward to co-leading the work of the Gulf Hypoxia Task Force to assess evolving science and address nutrient loads from all sources.'
So far, nitrogen loading from the Mississippi River has not declined since the 2001 adoption of the Hypoxia Action Plan, scientists noted. NOAA's June 2025 forecast, which had predicted a dead zone of 5,574 square miles, was based on U.S. Geological Survey nutrient data from spring river flows and fell within model uncertainty ranges.
NOAA's Coastal Hypoxia Research, Ocean Technology Transition, and Uncrewed Systems programs are working to improve monitoring and prediction tools. This year, several autonomous surface vehicles were deployed alongside ship-based crews to compare mapping methods.
Researchers said ASVs may provide a more cost-effective way to track dead zones in the future. NOAA also partners with the Northern Gulf Institute and Gulf of Mexico Alliance to expand observational capabilities and state-level technical support.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
6 hours ago
- Yahoo
Haunting Underwater Voice Remains Mystery 25 Years Later (Listen)
The mysteries of the world's oceans are as vast as the seas themselves, spreading across more than 70% of the earth's surface, and still to this day, remaining largely unexplored. And one unknown occurrence has remained unanswered for 25 years. Back in 1991, the National Oceanic and Atmospheric Administration captured an underwater sound off the Pacific Ocean, near the equator, eerily resembling that of a woman. As such, they named the phenomenon 'Julia.' And still, they've been scratching their heads as to what may have caused the anomalous noise. Hear it below. Of course, online, conspiracy theorists have their ideas about what the sound may be. Like on Reddit, where some users commented and cautioned: 'So T-Rex didn't go extinct. He moved into the ocean to escape the heat from the apocalypse and is now a fish. Got it.' 'This is terrifying.... It's why you'll never find my ass out on a cruise ship. No thank you.' 'What could be causing that? Could it be something similar to the big blip, or like an under water eruption?' 'RELEASE THE KRAKEN!'In reality, the experts at NOAA do have a pretty distinct idea of what the mysterious sound may be. They believe it was the sound of an iceberg grounding on the seafloor. NOAA continued: 'This sound was recorded on March 1, 1999 on the eastern equatorial Pacific autonomous hydrophone array. The most likely source of the sound formerly known as 'Julia' is a large iceberg that has run aground off Antarctica. Due to the uncertainty of the arrival azimuth, the point of origin could be between Bransfield Straits and Cape Adare with an origin time of 1999 JD60 21:05GMT.' Or, just maybe, there's more secrets in the ocean's depths that we've yet to Underwater Voice Remains Mystery 25 Years Later (Listen) first appeared on Surfer on Aug 4, 2025 Solve the daily Crossword
Newsweek
16 hours ago
- Newsweek
World's Largest Free Iceberg Drifted for Decades—Now It's Cracking
Based on facts, either observed and verified firsthand by the reporter, or reported and verified from knowledgeable sources. Newsweek AI is in beta. Translations may contain inaccuracies—please refer to the original content. The world's largest iceberg is shedding large chunks of ice in the South Atlantic Ocean nearly 40 years since it first broke off from Antarctica's Filchner Ice Shelf. An image from NASA's Aqua satellite has shown new ice chunks near South Georgia that have broken off the iceberg named A-23A as it drifts in the southern part of the South Atlantic Ocean, around 1,500 miles north of its birthplace, according to a statement from NASA. Scientists have been closely monitoring A-23A due to concerns that it may collide with South Georgia, the largest of nine remote islands that form the South Georgia and South Sandwich Islands, "potentially threatening a delicate ecosystem which is home to penguins and seals," the National Oceanic and Atmospheric Administration (NOAA) noted in January. Two of the new ice chunks were large enough to be named and monitored by the U.S. National Ice Center (USNIC). Aqua's MODIS (Moderate Resolution Imaging Spectroradiometer) was able to capture this natural-color satellite image of A-23A and the new icebergs on July 22 following a break in the clouds and lengthening daylight hours in Antarctica. A NASA satellite image captured on July 22 showing chunks of ice near that have been shed from A-23A, the world's largest iceberg, near South Georgia. A NASA satellite image captured on July 22 showing chunks of ice near that have been shed from A-23A, the world's largest iceberg, near South Georgia. NASA Earth Observatory Around this time, the surface of A-23A spanned around 969 square miles. The new pieces, name A-23D and A-23E, were measured to be around 62 and 28 square miles, respectively, NASA said. The new ice pieces were first identified by Jan Lieser of Australia's Bureau of Meteorology using NovaSAR-1 radar data, before they were later confirmed by USNIC analyst Britney Fajardo via radar images from the European Space Agency's Sentinel-1 mission on July 15. "Radar satellites can take images of the Earth at polar night and through all weather conditions, including heavy clouds and even smoke," Lieser said in a statement. Back in January this year, A-23A was found to be slowly drifting northeast in the Southern Ocean, according to images captured by NOAA's GOES East satellite. As of January 16, the iceberg was reported to have an area that's roughly the size of Rhode Island, the USNIC said. From the start of March, A-23A has sat lodged on the Filchner Ice Shelf around South Georgia. "Icebergs that make it this far north are increasingly at the mercy of warm water, waves, and seasonal weather—factors that contribute to a berg's ultimate demise," NASA explained. By late May, A-23A split off into thousands of smaller chunks after colliding with an Antarctic island and continued drifting toward the eastern side of South Georgia. The iceberg followed the same currents that the massive A-68A iceberg rode in late 2020. "The austral winter journey continued to inflict damage on A-23A, which shed even more ice from its sides," NASA said. Despite the edges lost, A-23A is still the largest iceberg currently drifting freely in any of the world's oceans. Only D-15A is bigger, which lies grounded in the Amery Sea off east Antarctica, according to the space agency. Scientists expect more calving from the remainder of A-23A as it moves further north, NASA said, with extended daylight hours taking place in this part of the South Atlantic. Do you have a tip on a science story that Newsweek should be covering? Do you have a question about climate change? Let us know via science@
Yahoo
17 hours ago
- Yahoo
New World Record-Longest 'Megaflash' Lightning Confirmed. It Covered A Distance From East Texas To Near Kansas City
Scientists have confirmed a new world record for the longest lightning flash in a thunderstorm complex, which hit the Great Plains 8 years ago this fall. The so-called megaflash lightning extended a distance of 515 miles from northeast Texas to near Kansas City on Oct. 22, 2017, according to the findings by Georgia Tech researchers who were supported by NASA. It lasted 7.39 seconds and struck the ground below in various spots more than 100 times. This distance beats out the previous record megaflash of 477.2 miles set April 29, 2020, in the southern United States, according to a comprehensive database of weather records maintained by the World Meteorological Organization. You can see the vein-like appearance of the new record megaflash shaded in green in the analysis below. The blue and red dots show where cloud-to-ground lightning strikes occurred. Scientists found this lightning flash was not previously detected because of how data was originally processed from NOAA's GOES satellite. It was discovered when data was reanalyzed last year, so that's why the year in which this new record occurred is older (2017) than the previous one (2020). "The 2017 event is notable in that it was one of the first storms where NOAA's newest Geostationary Operational Environmental Satellite (GOES-16) documented lightning 'megaflashes' – extremely long duration/distance lightning discharge events," the World Meteorological Organization said in a press release. A Georgia Tech press release said most lightning flashes stretch 10 miles or less, but longer ones covering distances of hundreds of miles happen often enough for satellites to see them. They are typically spotted in the Great Plains, where what meteorologists call mesoscale convective systems frequently strike. These complexes of thunderstorms are notorious for producing prolific lightning as well as flash flooding, high winds, hail and sometimes tornadoes. While this megaflash is a new record for distance, it's not in the top spot for how long it lasted. A bolt of lightning in 2020 over South America last 17 seconds, or nearly 10 seconds longer than this October 2017 event in the Great Plains, as senior meteorologist Jonathan Erdman wrote about. Chris Dolce has been a senior digital meteorologist with for 15 years after beginning his career with The Weather Channel in the early 2000s.
