Researchers predict significant harmful algal bloom in western Lake Erie this summer

Jul 10, 2014
A satellite image of 2013 intense bloom, which was concentrated in Lake Erie's western basin. Credit: MODIS/NASA, processed by NOAA/NOS/NCCOS

NOAA and its research partners predict that western Lake Erie will have a significant bloom of cyanobacteria, a toxic blue-green algae, during the 2014 bloom season in late summer. However, the predicted bloom is expected to be smaller than last year's intense bloom, and considerably less than the record-setting 2011 bloom.

Bloom impacts will vary across the 's western basin and are classified by an estimate of both its concentration and how far it spreads.

Harmful algal blooms (HABs) were common in western Lake Erie between the 1960s and 1980s. After a lapse of nearly 20 years, blooms have been steadily increasing over the past decade. Since 2008, NOAA has issued weekly HAB bulletins for western Lake Erie through the National Centers for Coastal Ocean Science (NCCOS) to give warnings of bloom development. Also, this marks the third time NOAA has issued an annual outlook for western Lake Erie.

"The reemergence of harmful algal blooms in Lake Erie is an ecological and economic setback for communities along the coast," U.S. Representative Marcy Kaptur said. "NOAA, Ohio Sea Grant, OSU, Heidelberg University and University of Toledo are developing tools to predict and target phosphorus, which will help in the fight to restore balance to Lake Erie's ecosystem, Ohio's greatest natural resource."

"The Lake Erie harmful algal bloom forecast, combined with NOAA's weekly HAB Bulletins, underscores the importance of having accessible and reliable environmental intelligence so the public and environmental health specialists can make informed decisions," said Holly Bamford, assistant NOAA administrator for the National Ocean Service. "With this information, we can work collectively to understand and mitigate risk to humans and marine ecosystems."

This image shows the 2014 forecast bloom severity compared to previous years based on NOAA and University of Toledo data. Credit: NOAA

"This NOAA model, resulting from a great collaboration, has been incredibly valuable to us as we work to eliminate blooms to protect human health, the Lake Erie ecosystem and its coastal economy," said Jeff Reutter, Ph.D., director of Ohio State University's Sea Grant program and Stone Laboratory. "In Ohio, as part of the Ohio Phosphorus Task Force II, we have used information from the NOAA model to help us target reductions in the amount of phosphorus going into the lake that should help us greatly reduce or eliminate the HABs."

The 2014 seasonal forecast used models developed by NCCOS scientists, the coastal science office for NOAA's National Ocean Service. The forecast uses a 12-year Lake Erie nutrient flow data set, collected by Heidelberg University's National Center for Water Quality Research, and analysis of satellite data from the European Space Agency's ENVISAT and NASA's Terra and Aqua satellites.

Separately, a jointly funded University of Michigan Water Center and NOAA Great Lakes Environmental Research Laboratory (GLERL) independent HAB experimental model concurs with the 2014 forecast. In addition to the satellite monitoring, GLERL, Ohio State University's Sea Grant program and Stone Laboratory, Heidelberg University, the University of Toledo, and Ohio EPA will be collecting key measurements from the lake as the summer progresses. Those results will provide valuable information to regional managers and assist NCCOS scientists in further refining the accuracy of this forecast's models.

"Issuing and evaluating these seasonal forecasts improves our understanding of how the blooms form, which leads to strategies to reduce their impacts," said Richard Stumpf, Ph.D., NOAA's ecological forecasting applied research lead at NCCOS. "Our academic partnerships also support us in making improvements to the forecast, further helping managers monitor the bloom, and informing the public of where and when they can best use this great lake."

The Lake Erie forecast is part of a NOAA ecological forecasting initiative that aims to deliver accurate, relevant, timely, ecological forecasts and important environmental data directly to coastal resource managers and the public as part of its stewardship and scientific mandates for coastal, marine and Great Lakes resources. Weekly updates of bloom location and severity can be received by a subscription to the NOAA Lake Erie HAB Bulletin.

Additionally, NOAA currently provides, or is developing, HABs and hypoxia forecasts for the Gulf of Maine, Chesapeake Bay, the Gulf of Mexico and the Pacific Northwest. Funding to support the Lake Erie forecasts was provided through NCCOS, NOAA's Center of Excellence for Great Lakes and Human Health, and NASA's Applied Science Health and Air Quality Program.

Explore further: Monitoring impacts of changing Gulf of Maine conditions on New England red tide

add to favorites email to friend print save as pdf

Related Stories

NOAA adds red tide alerts to Beach Hazards Statements

Feb 04, 2013

NOAA has added a new service to alert the public when red tides threaten human health at Tampa Bay area beaches. The new alert is timely since many of southwest Florida's beaches are experiencing or are under threat of red ...

Recommended for you

EU sets new energy savings target at 30%

21 minutes ago

After months of tough negotiations, the European Commission recommended Wednesday a new energy savings target of 30 percent so as to combat climate change and ensure self-sufficiency.

User comments : 7

Adjust slider to filter visible comments by rank

Display comments: newest first

Scroofinator
not rated yet Jul 10, 2014
Is there any good reason this algae isn't scooped up and turned into fuel? Just wondering...
supamark23
3 / 5 (4) Jul 10, 2014
Is there any good reason this algae isn't scooped up and turned into fuel? Just wondering...


Because they have to be genetically modified to do that. Wild type don't make fuel.
Scroofinator
5 / 5 (1) Jul 10, 2014
Wild type don't make fuel.

Completely wrong. All algae have lipids that can be converted to fuel, some just have more than others. They only genetically modify different strains for faster growth, H production, better temperature variability, etc...
supamark23
2.3 / 5 (3) Jul 10, 2014
Wild type don't make fuel.

Completely wrong. All algae have lipids that can be converted to fuel, some just have more than others. They only genetically modify different strains for faster growth, H production, better temperature variability, etc...


every living cell makes lipids, doesn't mean they're any good for makin' gas. To get the desired hydrocarbons in any quantity, genetic modification is necessary.
antigoracle
3 / 5 (2) Jul 11, 2014
For the moron above:
http://www.renewa...jet-fuel
Scroofinator
not rated yet Jul 11, 2014
Thanks for the link... and the laugh
Maya no n
5 / 5 (1) Jul 13, 2014
from: http://pubs.usgs....4007.pdf

'The Great Lakes data for Lake Erie show that spring phosphorus concentrations in the lake's central basin decreased from 0.17 mg/L in 1968 to 0.10 mg/L (the restoration target level) in 1992 and that, as a result, the excessive growth of algae declined and the algal composition shifted toward more desir­ able and historically prevalent species'

Why is phosphorous abatement now insufficient? Is increased demand for agriculture sources of energy causing increased fertilizer usage?