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Harmful Algal Blooms

Harmful Algal Blooms. photo by Diane Straw. Juli Dyble Bressie. Partners. Richard Stumpf (NOAA/NOS) Shelly Tomlinson (NOAA/NOS) David Millie (USF) Richard Rediske (GVSU ) Lorrie Backer (CDC) Pat Tester (NOAA/NOS) Wayne Litaker (NOAA/NOS) Greg Boyer (SUNY-Syracuse)

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Harmful Algal Blooms

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  1. Harmful Algal Blooms photo by Diane Straw Juli Dyble Bressie

  2. Partners • Richard Stumpf (NOAA/NOS) • Shelly Tomlinson (NOAA/NOS) • David Millie (USF) • Richard Rediske (GVSU) • Lorrie Backer (CDC) • Pat Tester (NOAA/NOS) • Wayne Litaker (NOAA/NOS) • Greg Boyer (SUNY-Syracuse) • Steve Wilhelm (U. Tennessee) • Orlando Sarnelle (Michigan State U) • Alan Wilson (Auburn University) photo by Tom Joyce Center of Excellence for Great Lakes and Human Health

  3. Concerns • Degrade water quality (hypoxia, taste/odor, recreational value) • Alter food webs (large amount of biomass; often not grazed) • Toxin production (neurotoxins, hepatotoxins, dermatotoxins) photo by Tom Archer Microcystissp.

  4. Legislative Mandate Harmful Algal Bloom and Hypoxia Research and Control Act Mandate for NOAA to advance scientific understanding and ability to detect, monitor, assess, predict, control, and mitigate HABs and hypoxia events • 1998 • First authorized by Congress • 2004 • Reauthorized and expanded • 2010 • HABHRCA 2004 expires • House passed HABHRCA 2010 • Senate vote in Fall Distribution of HABs in the US From Judy Kleindinst, WHOI

  5. Legislative Mandate • Objective: Improved coastal water quality • supporting human health and coastal ecosystem • services • Over the next five years, evidence of progress toward this objective will include: • • Greater understanding of the effects of natural and human-induced contaminants on the health of humans and marine life; • • Reduced impacts to human health and ecosystem • services due to degraded water quality; • • Faster detection of sediments and contaminants in coastal waters; • • Accelerated recovery and restoration of coastal resources and revitalization of coastal communities through improved water quality.

  6. Lake Superior Lake Huron Lake Michigan Lake Ontario Saginaw Bay Lake Erie HABs in the Great Lakes • Drinking water supply for 40 million US and Canadian citizens • Over 500 beaches for swimming and recreation • Seafood supply

  7. Goals • Experimental • Understand the ecological factors controlling bloom growth and toxicity • Develop to capacity to detect and predict toxic HAB blooms in order to protect human health • Limnological • Molecular • Remote sensing • Modeling

  8. Key Scientific Questions • What are the ecological factors that control the initiation, growth, intensity and toxicity of Microcystisblooms in the Great Lakes? • What is the potential for human exposure to cyanotoxins in the Great Lakes? • How do we protect human and ecological health from the impacts of HABs in the Great Lakes? photo by JuliDyble

  9. 2 18 What are the ecological factors that control the initiation, growth, intensity and toxicity of Microcystisblooms in the Great Lakes? 6 22 10 26 14 TEMP (oC) 300 300 300 300 300 300 300 200 200 200 200 200 200 200 Microcystis (x 106 μm3 L-1) 100 100 100 100 100 100 0 0 0 0 0 17 17 17 17 34 34 34 34 51 51 51 0 0 0 0 68 TP (μg L-1) • Long-term monitoring of Microcystis, microcystin and key environmental factors Photo by Diane Straw

  10. What are the ecological factors that control the initiation, growth, intensity and toxicity of Microcystisblooms in the Great Lakes? • Novel genetic characterization of blooms M from Pearson et al 2004

  11. Yellow perch, Perca flavescens What is the potential for human exposure to cyanotoxins in the Great Lakes? • 2 • Field and lab studies of microcystin • accumulation in fish • 2) Microcystin in drinking water supplies of • Lake Erie island communities Western Lake Erie perch (2006) Conservative limit for microcystin in fish tissues: 9.5 ngmicrocystin g-1 Photo by Tom Joyce

  12. Lake Erie as Drinking Water Supply PeleeIsland Toledo Middle Bass Oregon South Bass Kelley’s Island Catawba Camp Perry Marblehead Pt. Clinton Avon Lake Lorain Sandusky Vermilion Huron Elyria MODIS imagery, CoastWatch, GLERL, 7 Oct 2007

  13. How do we protect human and ecological health from the impacts of HABs in the Great Lakes? Lake Erie Experimental HAB Forecast System Source data: HAB density and distribution from MERIS imagery Circulation Model: Great Lakes Forecast System, POM-based Transport: particle tracking model (GNOME) predict bloom position in 2-3 days Field validation: Measuring Microcystis distribution in western Erie along w/ key environmental variables

  14. Erie Harmful Algal Bloom Forecast Conditions: AMicrocystisbloom has been identified in Maumee Bay, extending north to Brest Bay Analysis: Imagery indicates a large cyanobacterial bloom persists in western Lake Erie. Field counts suggest the bloom is dominated by Anabaena with low to very low concentrations of Microcystis present.

  15. Users of Lake Erie HAB Bulletin • Lake Erie Water Utilities:Toledo, South Bass Island, Kelley’s Island, Cleveland, American Water, NE Ohio Regional Sewer District • Health Departments:Monroe, Toledo, Port Clinton • Beach Managers: Cleveland Metro Parks • State and City Governments: Ohio DNR, Ohio EPA, Cities of Huron, Monroe, Sandusky, Lorain, Oregon, Cleveland, Luna Pier • Academics:University of Toledo, University of Michigan, Heidelberg University • Private Citizens Photo: L. Merchant-Masonbrink

  16. Future Work • Real time data from buoy-based sensors • nutrients • phycocyanin, chlorophyll a • microcystin • Microcystis-specific molecular probes • Ecological model to better predict bloom dynamics and toxicity – part of HAB forecast • Operational HAB forecast for western Erie and Saginaw Bay (Lake Huron) • Continue to combine genetic and ecological approaches to better understand HAB growth and toxicity

  17. Questions? Photo by Tom Archer

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