MD - Innovative incubator to jumpstart efforts to control harmful algal blooms
The University of Maryland Center for Environmental Science (UMCES) has been awarded a $7.5 million grant from the National Oceanographic and Atmospheric Administration (NOAA) to lead an innovative US Harmful Algal Bloom Control Technology Incubator (US HAB-CTI) to advance innovative ways to control harmful algal blooms that are impacting the health of people and marine ecosystems, as well as regional economies.
UMCES’ Institute of Marine and Environmental Technology (IMET) in Baltimore, Maryland, will partner with the Mote Marine Laboratory & Aquarium’s Red Tide Mitigation & Technology Development Initiative in Sarasota, Florida, to offer the first-of-its-kind center to solicit, fund, and assist the development of innovative harmful algal bloom control technology projects with commercial potential.
“Overall harmful algal blooms frequency has been increasing a tremendous amount over the past five years due to climate change, increasing temperatures, and legacy nutrients,” said University of Maryland Center for Environmental Science Professor Al Place.
Harmful algal blooms, such as red tide, cause a wide variety of environmental, economic, and human health problems. They occur when algae—simple photosynthetic organisms that live in the sea and freshwater—grow out of control while producing toxic or harmful effects on people, fish, shellfish, marine mammals, and birds. The growing frequency and magnitude of harmful algal blooms has created a pressing need for ways to control these blooms in coastal waters. As scientists, governments, and agencies have worked to assess approaches, there has been increasing need to incorporate environmental compliance, risk assessments, and other permitting in the decision-making process to use a control agent or approach.
The US Harmful Algal Bloom Control Technologies Incubator is a unique partnership between UMCES’ Institute of Marine and Environmental Technology and Mote's Red Tide Mitigation & Technology Development Initiative to solicit, fund, and assist innovative control technology projects and provide guidance on navigating the relevant licensing and permitting processes through an online clearinghouse of proven control methods. IMET and Mote will make available to grantees their research infrastructure to test mitigation compounds, technologies, and deployment mechanisms for marine, estuarine, and freshwater HAB species that negatively impact the U.S. economy, environment, and quality of life.
“Field demonstration of harmful algal bloom control techniques is needed to fill the gap between laboratory research and larger scale implementation,” said University of Maryland Center for Environmental Science Presidnt Peter Goodwin. “This is an ideal partnership to address a concerning global issue.”
IMET has the capability to perform lab-based experiments with freshwater toxic HABs in freshwater, and Mote has extensive experience with Florida red tide in the Gulf of Mexico, including their lab-based testing of mitigation strategies at their inland Mote Aquaculture Research Park and their facilitation of pilot field tests during past active red tide blooms.
“We know first-hand how devastating HABs can be,” said Mote President Dr. Michael P. Crosby. “NOAA recognized the important role that our innovative collaboration will have in effectively and efficiently bringing together many diverse partners from industry, academia and non-profit organizations with a laser focus on utilizing past research and existing knowledge to develop new technologies and approaches for mitigating the impacts of HABs to the environment, economy, and quality of life in communities across the U.S.”