Abstract Background Methods Discussion Conclusion Results The Great Bay Estuary is a beautiful place and an important environmental resource to both New.

Slides:



Advertisements
Similar presentations
Nuture's nursery: estuaries
Advertisements

SWAMP Team Members Contact Information Karen Taberski: , Nelia White:
Anna Mathis, VA Program Coordinator RiverTrends: Volunteer Water Quality Monitoring.
Great Lakes Observing System GLRI Tributary Monitoring Project
Impacts of Hurricanes on Phytoplankton Blooms in the Chincoteague Bay Trudee Jaeger, Department of Biology, York College Introduction Due to the climate.
South Puget Sound Dissolved Oxygen Study WQ Partnership Meeting March 15, 2007 Andrew Kolosseus
Water Quality Data Assessment of the Mullica River-Great Bay Estuary Alison Astalos, Mike Kennish Rutgers University, New Brunswick, NJ Introduction Methods.
MIXED 12/4/021 Learning about Puget Sound: MIXED Kate Edwards UW Applied Physics Lab.
Problem Description: To develop an autonomous network for monitoring aquatic environment Problem Description: To develop an autonomous network for monitoring.
2015 Water Quality Research Team Jamal Stevenson Jeffrey Wood Mentor Ricky Dixon Steffi Walthall Raveen McKenzie.
Page 1 CONSULTANCY AND RESEARCH IN AQUACULTURE AND THE AQUATIC ENVIRONMENT A Company in the NIVA-group Methodology for Environmental monitoring of aquaculture.
Factors Affecting The Distribution of Beggiatoa spp. Mats In Hood Canal and Quartermaster Harbor, WA. Matt Lonsdale, Pamela Michael, Jordan Brown, Sarah.
Georgia Adopt-A-Stream Introduction Georgia Adopt-A-Stream 2 Martin Luther King Jr. Dr. SW Suite 1462 East Atlanta, Georgia
Megan Anderton and John Cary. Tracking Strippers or.
It’s Not Easy Being Green Jill Buerck, Southeast Missouri State University Gretchen A. Koch, Goucher College Sarah Schubert, Southeast Missouri State University.
JCOMM Data Buoy Cooperation Panel October 16, 2006 National Data Buoy Center 2006 Review: A Year of Growth Paul F. Moersdorf, PhD, Director.
Environmental Quality: Restoring Bronx River. By: Swapan Bhuiyan.
Continuous monitoring in the benthic boundary layer off the Northwestern Florida shelf. William M. Landing, Stephanie Fahrny, Kevin Speer, Markus Huettel.
Ken Lake Water Study 6/6/06 Conducted by Chris Sogn, Avanti High School Science Teacher David H., Avanti High School Multi-Talented Student.
The Interconnectedness of the Chesapeake Bay Watershed Karen Sondak CREST Center for the Integrated Study of Coastal Ecosystem Processes and Dynamics University.
OHHI Beach Modeling Group Meeting March 23, 2006 GLERL, Ann Arbor, MI Project Summary Project Title: Predicting Pathogen Fate in the Great Lakes Coastal.
Seagrass and Salt Marsh: Critical Coastal Habitats
1 Factors influencing the dynamics of excessive algal blooms Richard F. Ambrose Environmental Science and Engineering Program Department of Environmental.
Diversity and Functional Variation of Denitrifying Bacterial Communities in the Cape Fear River Estuary Brian Shirey Marine Biology.
Cloud Evolution and the Sea Breeze Front
STORET 1001 and the State of Utah Monitoring Strategy Today you will see: –What kind of attributes are available in STORET –How results, stations, and.
Progress Towards Regional Coastal Ocean Observing Systems: Interactions between the NERRS, RAs and Sub-regional Monitoring and Observing Efforts 3 rd Meeting.
Are You Smarter Than a 5 th Grader? 1,000,000 5th Grade Topic 1 5th Grade Topic 2 4th Grade Topic 3 4th Grade Topic 4 3rd Grade Topic 5 3rd Grade Topic.
Physical Properties and Forcings in an Estuarine System 2013 PICES Summer School Group 4 Matthew, Daniel, Jingsong, Chorong, Joocheul, Morgaine, Polina,
Delaware’s Non-Tidal Monitoring Update for CY 2011 February 8,
What is the System-Wide Monitoring Program (SWMP) and What Can It Do For You?
Irish Sea Public domain: From Irish National Tidegauge NetworkIrish National Tidegauge Network Mean spring tides.
State Agency Needs for Remote Sensing Data Related to Water Quality By Bob Van Dolah Marine Resources Research Institute South Carolina Department of Natural.
Potomac River Monitoring Programs R. Christian Jones and Donald P. Kelso Department of Environmental Science and Policy George Mason University.
Add Title Here Insert a picture of your group below.
Abstract Man-made dams influence more than just the flow of water in a river. The build up of sediments and organic matter, increased residence times,
 Copy the question and answer in sentences:  Why was the invention of the submersible so important in the field of oceanography? What kinds of discoveries.
SOUTH FLORIDA WATER MANAGEMENT DISTRICT San Carlos Bay Project and System- Wide Monitoring in the Caloosahatchee River and Estuary Peter Doering, Ph.D.
Brenda Leroux Babin Louisiana Universities Marine Consortium Lei Hu Dauphin Island Sea Lab, Alabama A Tale of Two Observing Systems: September 10-11, 2008Environmental.
Annual Membership Meeting Water Quality Report 2010
Acknowledgements: Astoria Field Team, CMOP Staff
Meghan Hartwick, Cheryl Whistler, Erin Urquhart
Multi-year Trends and Event Response
Oceanography AND VA Resources
How many ways do you see water being used?
Andrine Stanhope*, Cassel Gardner and Larry Robinson
J. Lemaire1, S. Jones1, S. Hale1 M. Hartwick1
ABSTRACT METHODS RESULTS BACKGROUND CONCLUSIONS OBJECTIVES
Seagrass San Carlos Bay 11/19/13 Florida Coastal Office
Changes in Closure Frequency Per Year
Networked Aquatic Microbial Observing System
CMC: Who we are and how we can collaborate with the
Michael, B. D. , Trice, T. M. , Heyer, C. J. , Stankelis, R. M
Juha-Markku Leppänen Marine Research Centre
Topic 7 – Environmental Monitoring
Sediment Contamination Update
Environmental Systems
Centennial High School logo cbe. ab
Dissolved Oxygen in the Marine Environment
Heidi Emmons, Martin Wosnik, Ian Gagnon, Kaelin Chancey
Global Rivers Environmental Education Network
Relationship Between NO3 and Salinity:
Watersheds and Flow Impacts on the Mission-Aransas Estuary
Endowed Associate Professor of Marine Science
Local Education Coordinator
University of Washington, Mechanical Engineering
GLOBE is a hands-on environmental science and education program involving students in primary and secondary schools throughout the world.
The Four Phases Phase 1: Teach Phase 2: Collect Phase 3: Report
Marco island water quality monitoring
Presentation transcript:

Abstract Background Methods Discussion Conclusion Results The Great Bay Estuary is a beautiful place and an important environmental resource to both New Hampshire and Maine. The ecosystem services provided by Great Bay are endless and vital to both states’ economic and commercial success. The Piscataqua River which is located within the Great Bay watershed is a highly trafficked commercial shipping and recreational boat passage. The Memorial Bridge, which connects Kittery, ME and Portsmouth, NH, is in the process of advanced technology installation to make it a “Living Bridge”. With a turbine and other additional sensors, it will be able to track the structural health of the bridge but also provide another data collection site for the Piscataqua Region Estuaries. Data collection of both physical and chemical parameters is critical for understanding the quality and health of the estuary. Great Bay Estuarine Health and Measurements: Present State and Future Needs Alison Pflanz This research was supported with funding from the National Science Foundation’s grant to RETE ( ) and the PFI: BIC Living Bridge Project (143260). Thank you to Dr. Erin Bell from UNH who has been so helpful in guiding me throughout this research project. Thank you to Paul Stacy from the Great Bay National Estuarine Research Reserve for his expertise and input on the topic. Thank you to Dr. Ken Baldwin and Ian Gagnon from CORE-UNH and the rest of the Living Bridge team for helping me with this project and answering any questions I had along the way. This research was supported with funding from the National Science Foundation’s grant to RETE ( ) and the PFI: BIC Living Bridge Project (143260). Thank you to Dr. Erin Bell from UNH who has been so helpful in guiding me throughout this research project. Thank you to Paul Stacy from the Great Bay National Estuarine Research Reserve for his expertise and input on the topic. Thank you to Dr. Ken Baldwin and Ian Gagnon from CORE-UNH and the rest of the Living Bridge team for helping me with this project and answering any questions I had along the way. Essential that data collection is comprehensive, in both location and data type throughout the region because water quality is fragile in estuarine systems Marine life could be put in danger if water quality decreases over time especially as the shipping traffic increasing in the river Sensors and data monitoring must cover physical and chemical parameters to understand the big picture of what is happening in the estuary The Memorial Bridge is a great location for a new monitoring site because of its geography and the cutting edge technology being installed there Essential that data collection is comprehensive, in both location and data type throughout the region because water quality is fragile in estuarine systems Marine life could be put in danger if water quality decreases over time especially as the shipping traffic increasing in the river Sensors and data monitoring must cover physical and chemical parameters to understand the big picture of what is happening in the estuary The Memorial Bridge is a great location for a new monitoring site because of its geography and the cutting edge technology being installed there Data was gathered from various organizations working with Great Bay such as PREP (Piscataqua Region Estuaries Partnership), Great Bay NERR (Great Bay National Estuarine Research Reserve), etc and when and where that data was collected Identified gaps in data available and how Memorial Bridge sensor package fills the gaps in data collection due to prime location and available technology (see table below) Synthesized data availability and the needed types of data, location of collections and frequency of sampling Data was gathered from various organizations working with Great Bay such as PREP (Piscataqua Region Estuaries Partnership), Great Bay NERR (Great Bay National Estuarine Research Reserve), etc and when and where that data was collected Identified gaps in data available and how Memorial Bridge sensor package fills the gaps in data collection due to prime location and available technology (see table below) Synthesized data availability and the needed types of data, location of collections and frequency of sampling Sensors already planned to be used: CTD (Conductivity Temperature Depth) -From this salinity, density, turbidity, dissolved oxygen, and flourometry (Photo below) Imperative to understand how to monitor conditions of estuary and with what devices to keep the estuary healthy (sensors are not uniform at all stations) Expected sensor reading of a healthy estuary increase the decision making value of data collected in the Great Bay Important to not only measure data but show to public how small changes can have huge impacts on Great Bay’s health -Public access to data that is collected (ex: website) Continued funding needed for sensors and continual future monitoring of data Imperative to understand how to monitor conditions of estuary and with what devices to keep the estuary healthy (sensors are not uniform at all stations) Expected sensor reading of a healthy estuary increase the decision making value of data collected in the Great Bay Important to not only measure data but show to public how small changes can have huge impacts on Great Bay’s health -Public access to data that is collected (ex: website) Continued funding needed for sensors and continual future monitoring of data Acknowledgements Underwater Cameras Acoustic Doppler Current Profile -From this waves, current speed and direction, tidal signal Airmar (Photo below) - Wind speed and direction, Temperature, relative humidity Suggestion for Memorial Bridge Proposed Sensors for Chemical Data Collection: SUNA V2 (Submersible Ultraviolet Nitrate Analyzer) -This probe would be placed under the surface of the water to collect information on nutrients, flourometry for color and chlorophyll and DNA probes for bacteria and other living organisms FlowCytobot -Provides real-time phytoplankton species identification and counting which contributes to productivity and biodiversity metrics Important to monitor estuary as shipping traffic is expected to increase with new Sarah Mildred Long Bridge renovation (increase in size and frequency of boats) For future work, use ArcGIS to present visualizations of estuarine data collected throughout the Great Bay A collection station at Memorial Bridge can fill the gap in available data and allow for a more comprehensive monitoring program for the estuary Share estuarine health information with the public, which is not readily available Important to monitor estuary as shipping traffic is expected to increase with new Sarah Mildred Long Bridge renovation (increase in size and frequency of boats) For future work, use ArcGIS to present visualizations of estuarine data collected throughout the Great Bay A collection station at Memorial Bridge can fill the gap in available data and allow for a more comprehensive monitoring program for the estuary Share estuarine health information with the public, which is not readily available ParametersStation IDGRBSFGRBCMLGRBGBGRBSQGRBORMemorial Bridge DepthXXXXXX Tidal LevelXXXXXX Current Direction/SpeedX Wave HeightX DensityX SalinityXXXXXX TemperatureXXXXXX ConductivityXXXXXX pHXXXXXX TurbidityXXXXXX DOXXXXXX FlourometryX Wind Direction/SpeedX Wind GustsX Air TemperatureX Relative HumidityX PrecipitationX Additional data collection is needed in Great Bay covering both continuous collection of physical parameters as well as chemical parameters The sensor package for Memorial Bridge proposed below would be extremely beneficial for the continued comprehensive monitoring of Great Bay Source: Great Bay National Estuarine Research Reserve and New Hampshire Department of Environmental Services Note: The table on the right is showing data that is continuously collected over time and is collecting a physical parameter Stations GRBAP and GRBCL collect grab samples of chemical data and are not included in the table The other stations on the map not shown in the table were not included because data was not readily available or accessible Note: The table on the right is showing data that is continuously collected over time and is collecting a physical parameter Stations GRBAP and GRBCL collect grab samples of chemical data and are not included in the table The other stations on the map not shown in the table were not included because data was not readily available or accessible