Researchers at the University of South Florida’s College of Marine Science have created models to show where the wastewater from Piney Point has spread throughout Tampa Bay.
What You Need To Know
- USF modeling pollutant spread from Piney Point wastewater discharge
- One model shows the wastewater entering the Gulf of Mexico
- Professor Weisberg says the pollutants can fuel red tide bloom
- Related coverage: USF Team of Researchers To Test Tampa Bay Waters Near Piney Point
Professor Robert Weisberg, with the school’s Physical Oceanography department, says the Ocean Circulation Group created the circulation models using information from the tides, winds and river inflows to determine the current.
“It’s going to take weeks or months to really get rid of that stuff. And the hope is that when it dilutes enough, it’s not going to have any impact anymore,” Professor Weisberg said.
Researchers at USF's College of Marine Science have created circulation models that show how the pollutant plume from the #PineyPoint wastewater is moving throughout Tampa Bay & into the Gulf of Mexico. This model shows 3/30 to 4/08. Red/orange areas are of higher concern @BN9 pic.twitter.com/dCO3nok1kg— Jorja Roman (@JorjaRoman) April 13, 2021
Researchers also use similar models to study red tide. Professor Weisberg says it’s too soon to tell if these nutrients will impact a future red tide bloom offshore.
“If we do get a red tide originating off shore, of course any additional nutrients that we put into the ocean will further fuel that bloom. So, the quicker this dissipates and gets out of here, the better off we’ll be,” Professor Weisberg said.
He studied the impacts in 2003 when water from Piney Point was taken out to the Gulf of Mexico on barges and discharged. He says because the water is deeper there, it dissipated quickly and they didn’t see any major impacts.
The hope is the material from this water will spread out quickly, and there will be minimal impacts. Professor Weisberg’s team is working with others across the Bay area to study every possible environmental impact.