Sea Grant is turning 50! Come and Celebrate 50 Years of Putting Science to Work for America’s Coastal Communities.
What: A Salty Heritage: Celebrating the Fishing History of Tampa Bay
When: Saturday, December 3, 2016
Where: Weedon Island Preserve Cultural and Natural History Center, 1800 Weedon Drive, St. Petersburg, FL 33702
About: Tampa Bay has a rich heritage as a fishing community. To celebrate Sea Grant’s 50th Anniversary, we are holding a Marine Science Open Classroom (10 am – 12 pm) that will be fun for the whole family! Then we’ll have cake and refreshments in the lobby (12 – 1 pm), and will proudly finish the day by hosting some of the saltiest fishermen in the bay for an open panel discussion (1 – 3 pm) with the audience! Invited panelists range from crabbers, spearfishers, wholesalers, and recreational and commercial anglers. Each speaker will tell tales from the past, provide insights into their profession, and give us a glimpse of what they see as they look to the future. A question and answer session will follow the panel discussion.
We hope that you will join us for part (or all) of the day to learn about the resources Tampa Bay provides to our community.
In April of 2010, a gas release on the Deepwater Horizon oil rig caused an explosion that caused devastation in the Gulf of Mexico. Approximately 210 million gallons of oil spilled into the Gulf of Mexico over the course of 87 days to make this oil spill the worst one in recent history. Because of this oil spill, the coastlines of states like Texas, Louisiana, and Florida have portions that were polluted by the oil spill in 2010, and there are still sightings of oil washing up on these state’s shores today. Nearly 8,000 marine animals, such as turtles and birds, were reportedly dead within six-months of the oil spill.
Even though the Deepwater Horizon oil spill occurred over six years ago, scientists and researchers are still discovering the oil spill’s effects on the Gulf of Mexico. Come join us and Dr. Monica Wilson as she discusses recent research findings and explores the Deepwater Horizon oil spill’s impacts on habitats, aquatic wildlife, and human health.
Fishing license rules can be confusing, especially if you’re new to Florida or don’t know where to get good information. We have fishing license requirements for fresh water and salt water. We also have fishing regulations that apply to state waters and federal waters, and they are not always consistent. Knowing how and when they apply to you is important for ensuring a good fishing trip doesn’t go sour when law enforcement arrives. Licensing and regulatory information about fishing in Florida can be found at MyFWC.com.
If you are going fishing in Florida, you can assume you need a fishing license, unless you meet one of the state’s exemptions, are fishing from a pier that has a valid “pier license” (most of them don’t), or are fishing on a licensed charter boat.
This past summer, Florida’s Lake Okeechobee and St. Lucie Estuary became sheathed in toxic algal blooms. Do you know why these toxic algal events occurred? This month’s Salty Topics speaker series welcomes you to learn about the context of these events in a discussion presented by Dr. Karl Havens.
During early summer 2016, a bloom of the toxin-producing blue-green alga Microcystis began for form on the surface of Lake Okeechobee. By July, it covered nearly 45% of the surface of the lake with a fluorescent green surface scum. The bloom was fueled by high levels of nutrients (nitrogen and phosphorus) in the lake water that come from agricultural runoff, and by warmer than average water temperature and good underwater light conditions that were favorable for rapid growth. At the same time that this bloom was happening in the lake, the US Army Corps of Engineers was releasing large quantities of water from the lake in order to lower water levels in preparation for hurricane season. They are required to do this by a federally-authorized ‘lake regulation schedule.’ The flood control releases carried nutrients and toxic algae downstream to the St. Lucie Estuary, where massive blooms also developed and included another toxic species called Anabaena. As of late August, the blooms persisted and the ecological, human health and economic impacts have yet to be determined. A perfect storm created this event, and to fully understand it one must have some context about the regional flood control system and about sources of nutrients – topics to be discussed as part of this talk.
Karl Havens is a Professor at the University of Florida and Director of Florida Sea Grant, which is a NOAA-funded program that is a partnership between the Department of Congress, the State University System of Florida and Florida coastal communities. The mission of the program is to support research, education and outreach to preserve coastal resources and economies. Dr. Havens has been studying lakes for over 30 years and has published over 160 journal articles, three books and numerous book chapters dealing with harmful algae and other topics related to human impacts on lake ecosystems.
Do you know that Tampa Bay’s coastal ecosystems soak up and store carbon in a process called Coastal Blue Carbon? If not, come join us and Dr. David Tomasko for our Salty Topics speaker series!
Coastal Blue Carbon is a new term for carbon captured by living coastal and marine organisms and stored in coastal ecosystems. Mangroves, sea grass beds and salt marshes take up atmospheric carbon and store it in their systems throughout their life cycle. Also, these plants trap fine muddy sediments in their roots structures building thousands of years. Tampa Bay is a unique ecosystem as it is one of the few places in the U.S. to have three critical coastal habitats – mangroves, salt marsh, and seagrasses. Dr. David Tomasko, Principal Associate ESA, will share the results of the Tampa Bay Blue Carbon Project that was jointly funded by the Tampa Bay Estuary Program and Restore America’s Estuaries.
The presentation will include:
• Carbon storage and sequestration rates for Tampa Bay habitats
• Impacts of land use change, including sea-level rise and management actions, on carbon in the estuary
• How blue carbon ecosystem services can inform management decisions and provide additional incentives to support conservation and restoration and adaptive management
Invert Trivia: What group of invertebrate species shares these three distinctive features? 1) A body with five-part symmetry; 2) an internal skeleton made of calcium carbonate; and 3) a water vascular system of fluid-filled vessels that manifests to the outer surface as structures called tube feet. Stumped? Here’s a few more clues. This group of species are entirely marine, and they lack a head, heart, brain and eyes. They have separate sexes but it’s generally impossible to tell them apart based on their outward appearance. And, they can regenerate body parts.
These awesome creatures can only be echinoderms. In Greek, echino means spiny, and derma refers to skin, and these spiny-skinned creatures comprise sea urchins, sea cucumbers, feather stars, sea stars, and brittle stars. Echinoderms have an ancient lineage that dates back at least 600 million years. Today, at least 6,500 species are recognized within six living classes which are highlighted below.
Spotted seatrout are a sought after fish species for both recreational and commercial fishermen in Florida. They are distributed along the Atlantic and Gulf Coasts from Cape Cod, Massachusetts to southern Florida and throughout the Gulf of Mexico to Carmen Island in the Lower Gulf of Campeche, Mexico. They are most common along the Gulf coast from the west coast of Florida to Texas.
Spotted seatrout are unique in that that their entire life is estuary dependent and they rarely migrate far from the estuaries where they were spawned. They can tolerate wide salinities and may be found in waters ranging from fresh to hyper saline.
In southwest Florida, spotted seatrout are generally found associated with vegetated areas, such as seagrass beds and mangroves, and in close proximity to deep areas for seeking refuge from extreme temperatures. In the northern Gulf where seagrass is sparse, spotted seatrout are found in and adjacent to marshes, over sand, mud, shell reefs, and around oil platforms.
Two recent deaths in Florida have raised concern about the saltwater-dwelling bacterium, Vibrio vulnificus. MOST HEALTHY INDIVIDUALS ARE NOT AT RISK FOR V. vulnificus INFECTION, however, to ensure that your time on the water is safe and enjoyable, be aware of your risk and take steps to minimize becoming infected.
What are Vibrio?
The name Vibrio refers to a large and diverse group of marine bacteria. Most members are harmless, however, some strains produce harmful toxins and are capable of causing a disease known as “vibriosis.”
When and where are Vibrio found?
Every so often I receive photos taken by anglers who have observed fish abnormalities while fishing. The typical question I get is, do you know what this is? If not, can you help me find someone who does? Regardless of whether or not I know the answer, my response is always the same; report it to the Florida Fish and Wildlife Conservation Commission’s (FWC) Fish Kill hotline. But the fish isn’t dead! It’s OK, FWC’s Fish Kill hotline is maintained by their Fish and Wildlife Health section (FWH), and that section is also interested in fish abnormalities.
Scientists at the University of Florida have found Dory! Ok, they didn’t really find her, but they did learn how to spawn and raise blue tang in captivity. Why is this important? After the movie Finding Nimo was released, demand for clown fish sky rocketed. Until scientists learned how to raise them in captivity, the demand was filled through collection in the wild. Scientists knew when Finding Dory was released, the same type of demand would be likely, so their efforts to successfully spawn and raise Dory began long before the movie début. By rearing these fish through aquaculture, demand can be met, without the need to harvest from wild sources. Below is a link to a great article about the process of “Finding Dory”. http://news.ifas.ufl.edu/2016/07/finding-dory-ufifas-researchers-find-first-ever-method-to-farm-pacific-blue-tang/