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5/17/2013
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Michigan Tech’s
G t L k R h C tGreat Lakes Research Center
A Center for Environmental Science, Policy and Partnerships
Guy Meadows (Director, Great Lakes Initiatives)& Michael [email protected]@mtu.edu
Who and what are we ???
http://greatlakes.mtu.edu/
The result of a 10 Year Plan…..• University Strategic Planning…• A New Waterfront Facility Dedicated to the Great
Lakes• Designed by Faculty…• Six New Strategic Faculty Hires…• Enable Collaborations across the Great Lakes Basin
and the World
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Unique Approach:
The GLRC is a unique structure that brings a rich diversity of expertise from on campus and off, into a productive, multi‐use state of the art facility dedicated to addressing Great Lakes issues.• Shared cutting‐edge equipment.
• Focused on large scale, multi‐year, interdisciplinary funding.– Directed at Grand National challenges.
• The Great Lakes Center is designed to attract a dynamic mixture of student, faculty, researchers and business partners to work in collaboration on these challenging problems.
Major Areas of Focus
• Aquatic Ecology and Ecosystem Dynamics• Aquatic Ecology and Ecosystem Dynamics
• GLRC and Marine Operations
• Marine Technology and Engineering
• Aquatic Resources and Human DimensionsAquatic Resources and Human Dimensions
• Education and Outreach
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Focus Area: Fresh Water
• Stewardship of freshwater is one of the most significant grand challenges facing our worldsignificant grand challenges facing our world.
• Approximately 70% of the Earth’s surface is covered by water, but only 2.5% of it is freshwater.
• The Great Lakes are 84% of North America’s surface freshwater with half in Lake Superior.surface freshwater with half in Lake Superior.
• In the Great Lakes region, we face multiple concerns including toxic and nutrient pollution, invasive species, habitat degradation and many others.
What are we… ?
• Shared cutting‐edge equipment:
“Large” and Small Vessel Support
Monitoring Platforms
Advanced Underwater Vehicles
Advanced Sonar Systems
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More of what we are….?
• A Marine Facility:
Example ProjectsBottom Mapping and Offshore Wind
Acoustic Remote Sensing –
Digital Side Scan Sonar:LIDAR Wind Measurements
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Funnel Structure
Kohler Corporation
• Industrial Partner – R/V Agassiz– Water cooled Diesel generator – 9kw
• Long‐range Corporate Planning– Sustainable Water Use
– Next Generation Products
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Mercury Marine• GLRC is now a Mercury Test Facility
– Provided new 150 HP, 4‐stroke OB
St dent opport nities– Student opportunities
What we are by the numbers…
1 ‐ High Tech Boathouse and deep‐water dockage
2 ‐ Green roofs
3 New Industrial partners3 ‐ New Industrial partners
6 ‐ New Great Lakes Faculty lines
9 ‐ Research Buoys deployed in the Great Lakes
10 ‐Minutes between buoy data downloads
12 ‐ Research and Teaching Labs
1,152 ‐ Parallel processors in the new super computer
$25.4 ‐Million State‐of‐the‐art waterfront building
50,000 – Square feet of dedicated Great Lakes research space
20,364,800 – Acres of Lake Superior just outside the door
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What this means to you….
• Please, come and “play in our sandbox”
• Dock at our Marine Facility• Dock at our Marine Facility
• Use our State‐of‐the‐art laboratories, freezers, mass specs, etc.
• Encourage your scientists (at all levels) to spend time with us (extended stays or visits)spend time with us (extended stays or visits)
• Collaborate with us on new efforts
• Share our tools…and let us share yours
MTRI: Satellite Remote Sensing-Based C t l d N h M it iCoastal and Nearshore Monitoring
ResearchColin Brooks, Dr. Robert Shuchman
Michigan Technological University
Mi hi T h R h Institute (MTRI)Michigan Tech Research Institute (MTRI)3600 Green Court, Suite 100, Ann Arbor, MI
[email protected], [email protected]
t iwww.mtri.org
Great Lakes Sedimentation Workshop – Day 1
May 14, 2013
MTRI VisionMTRI Vision
The Michigan Tech Research Institute (MTRI), part of Michigan Technological University (Michigan Tech) is aMichigan Technological University (Michigan Tech), is a research institute focused on education, research, and development of technology to sense and understand natural and manmade environments.
www.mtri.org
3600 Green Court, Suite 100
Ann Arbor, MI 48105
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MTRI Core CompetenciesMTRI Core Competencies
MTRI core competencies are in the analysis, modeling and phenomenology (cause-effect relationships) associated with:
Remote Sensing Systems
GIS Based Dynamic Decision Support Systems
Biomedical Sensing
Database Management and Dissemination
Experiment Design and Execution of Remote Sensing Field StudiesExperiment Design and Execution of Remote Sensing Field Studies
Information Processing
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Remote Sensing of Great Lakes Water QualityRemote Sensing of Great Lakes Water Quality
Remote sensing: the collection of data about an object, area, or phenomenon from a distance with a device that is not in contact
ith the objectwith the object.Includes satellite imagery, radar, LiDAR and aerial photos
Several ongoing projects at MTRI apply remote sensing data to g g j y gquestions about Great Lakes ecosystem health Mapping submerged aquatic vegetation (primarily Cladophora) Estimating chlorophyll concentrations & related data across the Great
Lakes (CPAs) Sediment plume mapping Sharing data through GLOS to help monitor Areas of Concern, including
Green Bay Invasive Phragmites mapping Great Lakes coastal wetlands mapping
Partnering with GLOS, NOAA GLERL, EPA GLNPO, NPS, NASA, GLFC, Limnotech, GLC, U-M, USGS GLSC, others
Starting to also share results through GLOS Data Portal (www.glos.us) and NOAA GLERL Coastwatch
August 28, 2011 MERIS CPA Retrieval for Lake August 28, 2011 MERIS CPA Retrieval for Lake MichiganMichigan
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August 8, 2010 MODIS Aqua CPA August 8, 2010 MODIS Aqua CPA Retrieval for Lake MichiganRetrieval for Lake Michigan
Hatched areas indicate no retrieval due to clouds or lake bottom reflectance.
HAB Event MappingHAB Event Mapping
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Monitoring 5 AOCsMonitoring 5 AOCs
In support of GLOS tributary monitoring studies of 5monitoring studies of 5 AOCs, MTRI creates several satellite-derived products in
l tinear-real time Surface temperature
Sediment plume map
CPAs
Harmful Algal Bloom (HAB) map when presentp
http://www.glosaocmapping.org/
Lower Fox/Green Bay, St. Louis River, Saginaw Bay Maumee RiverSaginaw Bay, Maumee River, Rochester Embayment/Genessee River
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Plume Mapping AlgorithmPlume Mapping Algorithm
Generate a robust algorithm for the Great Lakes to map lplumes: Extent
Constituents
Concentration
It can utilize any ocean color aircraft or sensor that has the IR (infrared), Blue and Green bands
In the past sediment plumes were detected with a simple IR/R d ti th MODIS R d b d f th t lIR/Red ratio or the MODIS Red band for the coastal ocean (i.e. Doxaran et al. 2002, Rodriguez-Guzman, Gilbes-Santaella 2009 and Zhao et al. 2011)
GB
BGL Vis
NIRVisNIRVisTSSI
)(
Plume Example for Saginaw BayPlume Example for Saginaw BayModerate Plume within an EmbaymentModerate Plume within an Embaymentyy
True-color MODIS Aqua time series
April 15, 2009 July 9, 2009 August 26, 2009
True color MODIS Aqua time series of plume development, from heavy, to a diminished sediment plume, to moderate.
The TSSIGL algorithm applied to the MODIS Aqua bands/channels withMODIS Aqua bands/channels, with a typical ship trajectory
The thresholds applied to the TSSIGL algorithm output showing the extent of TSS (orange) and ( g )TSM (purple)
Sediment plume monitoring Sediment plume monitoring after April Grand River floodingafter April Grand River flooding
Using MTRI sediment plume mapping algorithm – any cloud-free day12
Mapping and Monitoring the Extent of Submerged Aquatic Mapping and Monitoring the Extent of Submerged Aquatic Vegetation in the Great LakesVegetation in the Great Lakes
Cladophora, a native, filamentous, green algae that grows in all of the Great Lakes,
i i h 19 0 d hwas a nuisance in the 1970s and has recently staged a comeback
Associated with beach and water intake fouling as well as with the spread of avianfouling as well as with the spread of avian botulism and E. coli
MTRI used Landsat satellite imagery to map the current extent of submerged
ti t ti hi h i i ilaquatic vegetation, which is primarily Cladophora in much of the Great Lakes, in Lakes Michigan, Huron, Erie and Ontario.
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Mapping and Monitoring the Extent of Submerged Aquatic Mapping and Monitoring the Extent of Submerged Aquatic Vegetation in the Great LakesVegetation in the Great Lakes
In Lake Michigan 28% of the visible bottom consists of Submerged A ti V t ti (SAV) (1220Aquatic Vegetation (SAV) (1220 km2 out of the 4390 km2 of visible bottom mapped)
MTRI’ i l ti t f th dMTRI’s nominal estimate of the dry weight biomass of the SAV in Lake Michigan is 67,000 metric tonnes.
30 m resolution map30 m resolution map
Web-based, interactive GIS-style map established:
http://geodjango mtri org/aux/lake/michiganhttp://geodjango.mtri.org/aux/lake/michigan/algae(via http://www.mtri.org/cladophora.html)
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SAV/Cladophora mapping for other lakesSAV/Cladophora mapping for other lakes
Detecting and Mapping Invasive Detecting and Mapping Invasive PhragmitesPhragmitesaustralisaustralis in the Coastal Great Lakesin the Coastal Great Lakes
Using synthetic aperture radar (SAR) at a 20 m resolution MTRI recently finished mapping theresolution, MTRI recently finished mapping the distribution of invasive Phragmites along Great Lakes coastlines
SAR can differentiate wetland species based on water level patterns, vertical structure, soil moisture, bi d h l i l i ti ( id d b tbiomass, and phenological variation (provided by a set of spring/summer/fall radar images)
•1162 unique field site visits. •796 validation, 366 training
•Phragmites observed at 30% of sites.
• 68% Validation sites• 32% training sites
•Only NWI "Palustrine Emergent"Only NWI Palustrine Emergent polygons used to generate random points for validation sites of these, only 47% were documented as emergent in the fi ld b tifield observations
Detecting and Mapping Invasive Detecting and Mapping Invasive PhragmitesPhragmitesaustralisaustralis in the Coastal Great Lakesin the Coastal Great Lakes
MTRI project website:
Lake Michigan Potential Phragmites
http://mtri.org/phragmites.html JPEGs of the 3-season radar image
mosaics used to map Phragmites 2010-2011 field data in Google
Earth KML format
GLRI Phragmites Decision Support Tool Mapper:http://cida.usgs.gov/glri/phragmites/ Distribution map of coastal
Phragmites stands > 0.2 ha
Map of estimated Phragmiteshabitat suitability based on current environmental conditionsenvironmental conditions
Mapping Coastal Great Lakes Mapping Coastal Great Lakes Wetlands: Wetlands: fusion fusion of satellite sensors to map wetlands and adjacent of satellite sensors to map wetlands and adjacent
land use across the Great Lakes Basinland use across the Great Lakes Basin
Current Classification Extent
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Remote Sensing of Great Lakes Water QualityRemote Sensing of Great Lakes Water Quality
ContactSAV/Cladophora mapping http://www.mtri.org/cladophora.html
Green Bay monitoring http://www glosaocmapping org/Green Bay monitoring http://www.glosaocmapping.org/
Color Producing Agents:
Robert Shuchman, [email protected]
Colin BrooksColin [email protected]
Mike [email protected]
Zach Raymer, Amanda Grimm, Reid Sawtell, Nate Jessee, K. Arthur Endsley
Gary Fahnenstiel, David Schwab, Dave Millie
Phragmites mapping http://mtri org/phragmites htmlPhragmites mapping http://mtri.org/phragmites.html
Coastal wetlands:
Laura [email protected]
More information on many of MTRI’s current project areas can be found at http://mtri.org/projects