Pratt & Ault Labs: Harmful algal blooms can become airborne
- News
-
- Search News
-
- Dreyfus-Teacher Scholar Award for Szymczak
- Sanford Named to AAAS
- Biemann Medal for Hakansson
- Sanford Honored with Election to National Academy of Sciences
- McNeil Lab: A more accurate sensor for lead paint
- Schindler Named 2016 Packard Fellow
- Sloan Fellowships for Pratt and Schindler
- Walter Lab: Resolving Subcellular miRNA Trafficking and Turnover at Single-Molecule Resolution
- Maldonado Lab: Cheaper, greener way to grow cystalline seminconductor films
- New polymer allows researchers to study how proteins fold, function
- Researchers focus on cell membranes to develop Alzheimer's treatments
- Video: Research on Lipid Bilayer and Relation to Amyloid-β
- Biteen Lab: Accounting for the "scooching effect"
- Pratt Lab: Molecular Iodine Found in Arctic Atmosphere
- Marsh & McNeil Named AAAS Fellows
- Ramamoorthy Lab: Nanodiscs catch mis-folding amyloid proteins
- Ault Named 2018 Sloan Fellow
- Biteen Lab: Starch Utilization System Assembles around Stationary Starch-Binding Proteins
- Biteen Lab: Starch Utilization System Assembles around Stationary Starch-Binding Proteins
- Pratt & Ault Labs: Harmful algal blooms can become airborne
- Meet Professor Bunsen Burns
- Shedding New Light on Photosynthetic Pigments
- Ruotolo Lab: New Method to ID Proteins
- Energy Research And Education Fuel McCrory CAREER Award
- Building Motors to Drive Nanorobots
- Fast, sensitive mass spectrometer will help UM chemists profile proteins and metabolites
- Award Season for Michigan Chemistry
- Chem Alum Receives Honorary Degree, Gives Rackham Commencement Address
- Alum Named Science Teacher of the Year
- MichiganChem boosts facility for atomic resolution
- DOE Early Career Award for Kerri Pratt
- ACS Honors Alum Weihong Tan
- Michigan Adds Chemistry Education Faculty Position
- Mapp Lab: New research clarifies how ‘fuzzy’ proteins can be used to develop novel drugs
- Karle Symposium Showcases Our Innovative Research
- UM scientists improve synthesis of PET imaging molecules
- MichiganChem Goes to the North Pole
- Diversity Service Award for Nicolai Lehnert
- Two elected Fellows of Royal Society of Chemistry
- Graduate Student Coordinator Honored
- 2018 Mentoring Award Recognizes Unique Programs
- Chen Named AAAS Fellow
- Chem 211 makes organic chem lab real for intro students
- Stephenson Lab: Designing a safer drug building block through photocatalysis
- "Compute-To-Learn" Bridges Classroom to Real-World Experiences
- Meet Roy Wentz: Chemistry's Custom Glassblower
- Michigan Students to Organize American Chemical Society Grad Symposium
- Anna Mapp honored for exceptional efforts to recruit and mentor students from non-traditional backgrounds
- Chemistry Alums Boyd and Pérez-Temprano Named to Talented 12
- Sharing Chemistry with the Community
- Awards Luncheon Offers Recognition for Outstanding Students
- Chemistry Faculty and Staff Collect Honors for Their Work
- Chemistry Writing: More Than Just Lab Reports
- Featured on the UM Gateway: Chemistry D-RISE Alum
- Hot climate, cool science :: Novel instrumentation applied to Arctic atmosphere earns Pratt "40 under 40" honors
- Kennedy Awarded Martin Medal for Achievements in Separation Science
- UM Chemists finding new opportunities in quantum science
- Alumna Sumita Mitra Inducted into National Inventors Hall of Fame
- Walter lab: RNA molecule senses a small metal ion to ramp up bacterium’s detox machine
- Create for Chemistry art contest
- Matzger Lab: A fix for insoluble drugs
- Dope Labs podcast explores the science behind pop culture phenomena
- Travel begets new data and new insights for Michigan Chem grad students
- Kopelman Lab: Nanoparticles + photoacoustic imaging-- a route to better cancer treatment decisions?
- Wang Lab: A productive first year
- National ACS Awards for Four Michigan Faculty
- Montgomery Named Thurnau Professor
- Mental Health, Well-Being and Research
- U-M to 3M: Transitioning to Industry after your PhD
- Chemistry Coping with COVID-19
- Chem Alums Create Crowdfunding Platform
- NSF Graduate Research Fellowships Announced
- Chem Master's Application Re-opened
- Chemistry Awards Announced
- New podcast: "My Fave Queer Chemist”
- Meet Josh Buss
- M|CORE: Preview program lowers barriers to graduate school
- Soellner Joins Michigan Chemistry
- Meet Chem Lecturer Nicole Tuttle
- Archived News
- UM Chemistry Featured Elsewhere
- Events
Waves lapping against the shoreline is always a pretty scene, but it may also be a way for toxins from harmful algal blooms to become airborne.
Harmful algal blooms—blooms composed of blue-green algae—crop up throughout the Great Lakes region during hot summers. Algae reproduces, unchecked, producing toxins and sapping oxygen from water. These blooms occur naturally, but agricultural run-off provides nutrients for the algae to thrive.
This is the case in Lake Erie, where agricultural runoff contributes to massive annual blue-green algal blooms. A bloom in 2014 caused Toledo to shut down the city's drinking water supply from the lake for three days. According to the Environmental Protection Agency, toxins produced by the algae can cause rashes, liver illness, vomiting, diarrhea, neurological effects, respiratory problems and even death.
Now, University of Michigan researchers Andrew Ault and Kerri Pratt are wondering whether toxins from these kinds of algal blooms can be transmitted by air when waves break against the shoreline."These tiny aerosol particles, similar to those produced from an aerosol spray can, are about one hundred times smaller than a human hair," said Kerri Pratt, assistant professor of chemistry and earth and environmental sciences in the College of Literature, Science, and the Arts.
Ault and Pratt have established the first answer to that question. Their study published in Environmental Science & Technology shows that biological material from algal blooms can become ejected into the air.
"Harmful algal blooms have been expanding as an important issue we're dealing with, particularly for the Great Lakes," said Ault, assistant professor of chemistry and environmental health sciences in the School of Public Health. "We've realized that not only are these important for water quality issues, but that you also generate atmospheric pollutants from these harmful algal blooms. We're the first to show that wave-breaking of these blooms can release material into the atmosphere, which can have impacts on people breathing it in."
In 2014, Pratt's and Ault's research teams, funded by the U-M Water Center, began taking water samples from Lake Erie and Lake Michigan. In September, they sampled Lake Erie water in the Maumee Bay near Oregon, Ohio, and in Catawba Island State Park near Port Clinton, Ohio. In October 2014, they sampled water from Lake Michigan near Michigan City, Ind.
Next, lead graduate student Nathaniel May recreated wave action in the lab using their lake spray aerosol generator. Taking air samples from the generator, the researchers were able to show that biological material from harmful algal blooms did become aerosolized.
"We found that when we had higher blue-green algae concentrations in water, we saw more aerosol particles that contained markers of biological content," Pratt said.
Ault's and Pratt's research has shown that particles of this size can be carried hundreds to thousands of miles by air, and wind speeds as little as 7 miles per hour can create lake spray aerosols.
"Our hypothesis is that toxins from this blue-green algae might be getting into the air, in which case, people might be subjected to inhalation exposure, serving as a previously unrecognized health risk beyond drinking water contamination," Pratt said.
Next, Ault plans to test specifically for toxins in the aerosols and how far they can be transported inland from the lakes.
--Morgan Sherburne, UM News
Study Link
"Aerosol Emissions from Great Lakes Harmful Algal Blooms"
Environ. Sci. Technol., 2018, 52 (2), pp 397–405
DOI: 10.1021/acs.est.7b03609
The study was chose for the cover of this issue.
