|Thousands of fish were killed by a red tide along Southwest Florida's Gulf Coast during a 2002 bloom. Red tide blooms can wreak havoc on local communities dealing with tourism losses or the cost of cleanup.
HAB outbreaks in coastal U.S. waters have resulted in staggering economic losses to recreational and commercial fisheries, recreation and tourism. They've been known to send people to hospitals, cause massive fish kills, kill or sicken protected or endangered sea turtles, sea birds, dolphins and manatees and result in increased costs for coastal managers dealing with their effects.
"The Gulf of Mexico has multiple existing systems that monitor and forecast the development and movement of HABs," said Dr. Barbara Kirkpatrick, Executive Director of GCOOS-RA, who is also Co-Chair of the National Harmful Algal Bloom Committee. "The systems are operated by state, federal and local agencies and research universities and laboratories and they tend to operate independently of each other -- meaning that we're not taking full advantage of the capabilities we currently have Gulf wide.
"In the Gulf of Mexico, it's impossible to control where and when blooms will develop, how long they will last or to stop them once they develop. But by developing a comprehensive plan to better deploy the tools we currently have, know where we need to add tools, continue to develop new technologies and methods to identify the causes and effects of harmful algal blooms and develop standardized reporting methods, we can help people stay healthy and help coastal communities be better prepared for red tide impacts. That's what HABIOS will do when it's fully operational."
The Gulf's most well-known species of harmful algae is
Karenia brevis, which causes red tides in Texas, Florida and other Gulf states and is currently impacting Florida's Panhandle and communities in Florida's central and south west coast. Climate change is also expected to increase the frequency and severity of HAB outbreaks, as well as bring outbreaks of additional harmful species, like
Dinophysis can cause diarrhetic shellfish poisoning in humans and was identified in Texas by the Imaging Flow CytoBot (IFCB) for the first time in 2008. It has been identified as an emerging threat.
This instrument, developed by Woods Hole Oceanographic Institution, maintained by Texas A & M University and housed at the University of Texas, combines high-resolution video and a flow cytometer to capture images of plankton species and identify harmful varieties. By feeding real-time data to the GCOOS data portal, the IFCB has provided an early warning for numerous toxic blooms since 2008.
"In Texas, this imaging tool gave us an early warning about a harmful algal bloom in 2008, allowing us to temporarily close oyster harvesting and keep affected oysters out of the marketplace," said Kirk Wiles, Manager, Seafood & Aquatic Life Group, Texas Department of State Health Services. "It's a valuable public health tool that has absolutely stopped illness outbreaks."
The HABIOS plan was developed following several HAB workshops attended by hundreds of stakeholders and system managers and sponsored by GCOOS and the Gulf of Mexico Alliance. During these meetings, user communities and managers identified critical deficiencies that can be improved through the development of a more comprehensive and integrated approach that will improve the ability to detect HABs more quickly and provide more accurate and timely predictions of potential impacts, which will allow coastal communities to better prepare.
"Harmful algal blooms can wreak havoc on coastal communities and coastal economies," said Zdenka Willis, IOOS Director. "We have limited funding nationally to develop and implement new systems to protect residents and deal with the effects of HABs on the environment. Working together under the framework laid out in the HABIOS plan, we will address this issue through collaboration, data sharing, public outreach and education among all agencies and organizations.
The Harmful Algal Bloom Integrated Observing System Plan was developed to ensure that resource managers, decision makers and the public have the information they need where they need it and when they need it so they can manage and mitigate the environmental and public health impacts of harmful algal blooms such as red tides.
The plan calls for improvements in monitoring, data management, data integration and modeling capabilities to address critical gaps in the existing systems and outlines goals and specific objectives for making the needed improvements. The Plan is also a blueprint that agencies can use to better direct the limited state and federal dollars available for HAB management and response.