Harmful Algal Bloom Research within CIOSS Pete Strutton CIOSS / COAS, Oregon State University Michelle Wood, Brittany Scott and Andy Ohana-Richardson Department.

Slides:

Advertisements

Similar presentations

Lisl Robertson, University of Cape Town, RSA with assistance from Stewart Bernard Christo Whittle GOOS AFRICA.

Advertisements

INDUSTRIAL ECONOMICS, INCORPORATED Oregon Coastal Atlas Coastal web atlases are among the best sources of GIS data for marine spatial planning Primary.

Quinault Indian Nation

Algal toxins in Scottish waters: the first association of domoic acid with the diatom Pseudo-nitzschia pseudodelicatissima complex in the North East of.

Large-scale Satellite Oceanography in Eastern Pacific Upwelling Regions Andrew Thomas University of Maine Recent manuscript collaborators: Jose Luis Blanco,

Ecology, Climate, Physical Oceanography. Bering Sea, Alaska SeaWifs Image (Norman Kuring image, NASA, April 25, 1998) Turquoise = phytoplankton bloom.

January 2005 COAST’ meeting 1 HAB Forecast System.

 contain chlorophyll and carry out photosynthesis  commonly called algae  four phyla: euglenophytes, chrysophytes, diatoms, dinoflagellates  accessory.

REMOTE SENSING Presented by: Anniken Lydon. What is Remote Sensing? Remote sensing refers to different methods used for the collection of information.

Effects of Algal Blooms on Marine Mammals Jessica Crance.

Saxitoxin concentrations in coastal Oregon shellfish: The influence of El Niño and the Pacific Decadal Oscillation. Jacqui Tweddle, Boston University (previously.

IOOS Application to Harmful Algal Blooms and Ecosystem Health Monitoring Josh Kohut Rutgers University, Institute of Marine & Coastal Science Bob Connell.

1 Issue: Society Depends on Ecosystem Modeling to Predict Threats and Minimize Risk.

The Importance of Coastal Waters - Recent Reports National Coastal Condition Report National Coastal Condition Report Heinz Center’s State of the Nation’s.

GOES-R 3 : Coastal CO 2 fluxes Pete Strutton, Burke Hales & Ricardo Letelier College of Oceanic and Atmospheric Sciences Oregon State University 1. The.

OSU_2/20/2006_Davis.1 Geostationary Coastal Waters Imaging as a Component of IOOS Curtiss O. Davis College of Oceanic and Atmospheric Sciences Oregon State.

Harmful Algal Blooms Integrated Observing System HABIOS Vision Statement To establish a sustained observing system as part of the U.S. IOOS (Integrated.

Water Quality for Healthy Beaches and Shellfish Beds Long-term Alliance Partnership Goal Provide critical water quality information to Gulf of Mexico resource.

Optical tagging and tracking of water masses for prediction of human health hazards Pete Strutton College of Oceanic and Atmospheric Sciences Oregon State.

The California Current and Coastal Upwelling Allison Parker Physical Oceanography November 20, 2007.

Background The Oregon Department of Fish and Wildlife (ODFW) has routinely monitored nearshore waters along the Oregon coast for the presence of Harmful.

Why Now? Regional, State and Federal Interests in Our and Coasts Why Now? Regional, State and Federal Interests in Our Oceans and Coasts Krista Kamer Program.

Water Quality Immune Function & Algal Blooms R K Pipe & M Jutson.

Use of Remote Sensing for Routine Coastal Water Monitoring by a State Agency Bob Connell New Jersey Department of Environmental Protection Bureau of Marine.

DO NOW! Can algae just be helpful in the ecosystem, just be harmful, or can it be both? Explain your answer.

1 Water Framework Directive (WFD) of the European Union © Acri-st, all rights reserved – 2014 Satellite-derived data for the Water Framework Directive.

Water Quality in Little Lagoon. Prior Projects MacIntyre, H.L., “Little Lagoon as an Incubator Site for the Harmful Bloom- Forming Diatom, Pseudo-nitzschia.

Using MODIS Aqua, SeaWiFS and In Situ Data for the Assessment of Harmful Algal Blooms in the Northern Gulf of Mexico Gregory A. Carter and Dan Holiday.

HABMAP: CALIFORNIA HARMFUL ALGAL BLOOM MONTORING and ALERT PROGRAM Meredith Howard Southern California Coastal Water Research Project University of Southern.

Equatorial Pacific primary productivity: Spatial and temporal variability and links to carbon cycling Pete Strutton College of Oceanic and Atmospheric.

GOES-R, May 2004 Coastal Ocean Science Harmful Algal Blooms and GOES-R GOES-R Users Conference, 2004 SeaWiFS data from OrbImage, Inc. Richard P. Stumpf.

Automatic near-real time mapping of MERIS data in support of CASIX, DISMAR and as input to a phytoplankton classifier Jamie Shutler, Peter Miller, Steve.

Use of remote sensing in monitoring algal blooms in inland water bodies Anabel A. Lamaro Fortaleza 1-

Warming of the climate system is unequivocal, as is now evident from observations of increases in global average air and ocean temperatures, widespread.

Harmful Algal Blooms A marine ecosystem manager is interested in using satellite and ocean model products to find precursors for the determination of harmful.

Detecting and Monitoring Harmful Algal Blooms on Florida Coast Joseph Tuzzino, Brooklyn Technical High School Jonathan Tien, St. Francis Preparatory Dr.

Inter-comparison of Satellite Algal Bloom Detection Techniques Using Surface and Top of Atmosphere Signals Students: May Chum and Pierre Ramos Mentors:

Why Does NOAA Need a Climate & Ecosystem Demonstration Project in the California Current System? Capabilities and Drivers La Jolla, CA 6 June, 2005.

Ocean Color Products: The challenge of going from stocks to rates

Center for Satellite Applications and Research (STAR) Review 09 – 11 March 2010 Image: MODIS Land Group, NASA GSFC March 2000 CoastWatch / OceanWatch Presented.

A Bloom of a “Different” Color Using satellite imagery to monitor coastal algae.

Further information Results 19 tournaments surveyed : 415 interviews; 579 fishing locations; 1,599 fish hooked/landed Variable.

Coastal, Ocean, and Land Linkages in North American Carbon Cycle Dr. Arturo Muhlia Melo JNACP-2007.

Coastal Ballast Water Exchange on the West Coast of North America: Developing a Regional Plan ( ) Karen McDowell San Francisco Estuary Project.

Introduction to “Red Tides” in the Northern Gulf of Mexico: Harmful Algae Blooms.

HAB Bulletin [status of harmful and toxic algae] Week runs from Sunday to Saturday Shellfish biotoxin report (last week) EU Regulatory Limit: ASP 20 µg/g;

State Agency Needs for Remote Sensing Data Related to Water Quality By Bob Van Dolah Marine Resources Research Institute South Carolina Department of Natural.

Ocean Systems and Climate Modification Ocean Systems Summary Ocean Response Issues ©2001, Perry Samson, University of Michigan.

Lecture 9: Air-Sea Interactions EarthsClimate_Web_Chapter.pdfEarthsClimate_Web_Chapter.pdf, p ; Ch. 16, p ; Ch. 17, p

The 2009 Alexandrium bloom Donald M. Anderson- Woods Hole Oceanographic Institution Scott Libby - Battelle, Brunswick, ME.

EVAT 554 OCEAN-ATMOSPHERE DYNAMICS UPWELING AND DOWNWELLING; EKMAN TRANSPORT LECTURE 14 (Reference: Peixoto & Oort, Chapter 8,10)

Harmful Algal Blooms satellites to genomes Timothy Davis Ecosystem Dynamics Place Photo Here.

2010, 2014 and 2015 Bad Years for Harmful Algal Blooms in Alaska Bruce Wright For the SWAMC Feb 2016 )

Monitoring and prediction of ENSO, the Benguela Nino and other large scale phenomena; subsequent impacts upon southern African rainfall patterns; and the.

HAB Bulletin [status of harmful and toxic algae] Week runs from Sunday to Saturday Shellfish biotoxin report (last week) EU Regulatory Limit: ASP 20 µg/g;

Ecological Interactions -Consumption of economically important or endangered fishes and squid -Competition for marine and terrestrial resources -Predation.

©2004 Perry Samson, University of Michigan

Upwelling in the World Ocean

Background of harmful algal blooms (HABs)

Convection: The Great Ocean Conveyer

Primary Production and Satellite Remote Sensing

Lessons Learned and Planning for Harmful Algal Blooms

What weather phenomena has the largest impact on our weather in Texas?

Coastal CO2 fluxes from satellite ocean color, SST and winds

Satellite-derived data for the Water Framework Directive (WFD) of the European Union Abstract : The application of the Water Framework Directive (WFD)

Please fill in the questions on your entrance slip.

LT Ricardo Roman OC3570 March 7, 2006

This Week Day 1- Engage. Introduction to a local Harmful Algal.

The future is now: How climate change has altered coastal ecosystem function and what can be done to make these systems more resilient Christopher J.

Presentation transcript:

Harmful Algal Bloom Research within CIOSS Pete Strutton CIOSS / COAS, Oregon State University Michelle Wood, Brittany Scott and Andy Ohana-Richardson Department of Biology, University of Oregon Funded by NOAA’s Oceans and Human Health Program

Harmful Algal Blooms (HABs): A growing problem Increasing frequency and persistence of HABs –Anthropogenic impacts, climatic shifts, ballast water dispersal Monitoring programs exist, but are not pro-active Off Oregon the main toxic species are: – Pseudo-nitzschia, diatom, produces Domoic Acid, leads to Amnesic Shellfish Poisoning – Alexandrium, dinoflagellate, produces saxitoxin, leads to Paralytic Shellfish Poisoning Some HAB species (notably K. brevis ) have unique optical signatures that can be used to detect in situ or from space. Goal: Use (multiple) satellite products to predict and track HABs

Historical data from the Oregon Dept of Agriculture Large database of coastal toxin concentrations Most comprehensive from 1998 to present Includes two large events (1998 and 2005) Backtrack from coastal observations to offshore conditions

Increasing toxicity of Oregon events Note: 2005 DA concentrations were highest ever observed

Increasing toxicity associated with El Niño El NiñoLa Niña

Large event in 1998 From: Hickey and Banas, 2003 Observed along the entire west coast Linked to California Sea Lion deaths, particularly in central CA Relatively well-sampled with documented hot-spots on Heceta Bank and the Juan de Fuca eddy Focussed attention on the JdF eddy as a potential incubator

Juan de Fuca eddy: HAB incubator? From: Sackmann & Perry, in press

Spectral signatures as a tracking tool From: Sackman & Perry, in press

Results from Juan de Fuca work Transport events from the JdF to the WA coast are frequently observed. May 1999 event did not directly generate HAB conditions, but … –suggests delivery of seed populations to the coast by (1) direct advection, (2) switch to downwelling winds, or (3) sinking and upwelling of cells. Despite the absence of a clear optical signal for Pseudonitzschia, radiance spectra can be used to track masses. Satellite data monitoring could enhance shore-based sampling and management.

Heceta Bank: A Juan de Fuca eddy analog?

Climatology of chlorophyll and HAB ‘hot spots’ HB

In situ measurements: May 2005 event HB Chl [mg m -3 ] Domoic acid [nM]

Coastal chlorophyll and domoic acid, 1998

Accomplishments to date and future work Retrospective analysis of Oregon Dept of Agriculture toxin data –Confirms Heceta Bank (and Columbia outflow) as HAB hot spots –Have begun coupling these data with SeaWiFS chlorophyll –Next step: Go beyond chlorophyll to spectral signatures –Include analysis of fronts: both chlorophyll and temperature Large-scale event in 2005, with record Domoic Acid concentrations observed onshore – in situ sampling of this bloom coupled with remote sensing Established collaborations with WA and CA colleagues –Strengthen these ties in the interest of standardized methods Ultimately transition the remote sensing techniques to operations