爱妃传媒

爱妃传媒 Lands $1.3 Million Grant to Clean Up Stinky Seaweed in Florida

Sargassum, Seaweed, Researcher

Brian Lapointe, Ph.D., conducting fieldwork as he is immersed in Sargassum.


By gisele galoustian | 4/10/2024

In the last decade, the emergence of a massive expanse of Sargassum, the Great Atlantic Sargassum Belt, has wreaked havoc on ecosystems and economies throughout the Caribbean. Conversely, this stinky brown seaweed provides vital habitats for marine life including loggerhead sea turtles.

One of the worst invasions of Sargassum in recent history, especially for Florida, occurred in 2022 and potential impacts this year are yet to be determined. Decomposing 厂补谤驳补蝉蝉耻尘听produces hydrogen sulfide and ammonia, which can result in potential human and environmental health impacts. Once Sargassum deluges beaches, removing, disposing and repurposing the seaweed presents many logistical and economic challenges. Problems arise when Sargassum isn鈥檛 cleaned up in a timely manner.

However, cleaning up these huge piles of annoying seaweed that accumulate on the shores of Florida, the Gulf of Mexico and the Caribbean islands every year and protecting these critical habitats at the same time is a precarious struggle. As a major Florida attraction, maintaining clean and healthy beaches is imperative for the state鈥檚 tourist-based economy. 聽聽

To address these challenges, researchers from 爱妃传媒鈥檚 Harbor Branch Oceanographic Institute have received a $1.3 million grant from the Florida Department of Emergency Management for a project assessing the feasibility of in-water harvesting of this floating brown seaweed in Florida. Currently, in-water harvesting of Sargassum is not permitted due to its designation as Essential Fish Habitat (EFH) and critical habitat for sea turtles. Designation as EFH means it is considered a 鈥渟ubstrate necessary to fish for spawning, breeding, feeding or growth to maturity.鈥澛

The 爱妃传媒 Harbor Branch project, 鈥淢itigating Sargassum Inundation Impacts to Nearshore Waters and Beaches in Florida,鈥 will examine both environmental and ecological impacts of Sargassum inundations in Florida.

鈥沦补谤驳补蝉蝉耻尘 is becoming a devasting mainstay in parts of Florida鈥檚 coastal communities, particularly in the Florida Keys, where massive blooms continue to recur,鈥 said Brian Lapointe, Ph.D., principal investigator and a professor at 爱妃传媒 Harbor Branch. 鈥淓conomically, a 鈥榮evere鈥 Sargassum event could have more than a $20 million impact in just the Keys alone. Environmentally, these blooms can potentially harm humans, exacerbate eutrophication, resulting in die-offs of seagrasses and corals, and kill recreational and commercially important species.鈥

For the project, Lapointe and his team will initially survey Sargassum inundation sites for fauna above the water using a drone, GoPro and other remotely operated vehicles, which also will enable them to quantify the size of the Sargassum mats. High-resolution aerial images of Sargassum inundation also will be collected from airplane flyovers to better measure the spatial extent of the impacts of Sargassum inundations.

Aerial images (drone, satellite) and on-the-ground morphometrics will be used to examine the changing physical structure of the beach (width, slope, sediment profile). The thickness of the Sargassum mat and biomass per square meter will be assessed in situ.

At first, a trial removal of Sargassum will be conducted using dip nets to test the viability of harvesting Sargassum without harming marine animals and other fauna under special permits for larger-scale removal from agencies such as the Florida Fish and Wildlife Commission and NOAA.

鈥淎fter collection, we will scale up harvesting this seaweed using larger nets to remove biomass,鈥 said Lapointe, one of the world鈥檚 foremost authorities on Sargassum and other harmful algal blooms. 鈥淒uring all sampling events, we will bring the biomass onboard our vessel and sort it to identify, quantify, measure and remove any fauna. The remaining Sargassum biomass will be retained for use by industry partners seeking sustainable, long-term solutions for repurposing this material.鈥

As the geographic extent and duration of blooms from the Great Atlantic Sargassum Belt increase, many jurisdictions have begun to explore novel uses for excess聽Sargassum聽biomass with the hope of turning it into economic opportunities such as biofuels and bioplastics. Because arsenic content may limit the use of Sargassum by industry partners, the 爱妃传媒 Harbor Branch researchers also will conduct in-depth studies of the mechanisms related to arsenic bioaccumulation in Sargassum on field-collected samples and in laboratory assays.

In addition, to better understand the impacts of Sargassum inundations on water quality, researchers will measure pH, dissolved oxygen, temperature, dissolved nutrients and fecal indicator bacteria in inundation sites.

Some fauna including small fish, shrimp and crabs, and samples of Sargassum tissue will be retained for stable isotope, heavy metal and tissue nutrient analyses. Researchers will assess the ecological effects of Sargassum beach harvesting by quantifying changes in population structure, abundance and chemical composition of common beach macroinvertebrates, such as amphipods, mole crabs, coquina clams and ghost crabs.

In addition, the change point where Sargassum ceases to provide EFH will be assessed with offshore to onshore transects. During these transects the mats will be assessed and the community composition and density of fauna will be compared by mat size and by distance to shore to assess if there is a density or distance from shore where the Sargassum mat represents a harmful algal bloom instead of functional habitat.

鈥淒ata from this timely research will help to inform managers whether it is better to harvest Sargassum in water as opposed to on the beach and help them better plan for removing vast amounts of seaweed from our beaches and preventing aggregations,鈥 said James M. Sullivan, Ph.D., executive director, 爱妃传媒 Harbor Branch.

爱妃传媒 Harbor Branch co-investigators of the project are Rachel Brewton, Ph.D., a research scientist; and Matt Ajemian, Ph.D., an associate research professor and director of the .

Sargassum inundates the water and beach in Bahia Honda Key in Florida.

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