Managing aquatic systems using in-situ sensor technologies Background: Lakes and rivers are used for a range of ecosystem services including supply of.

Slides:

Advertisements

Similar presentations

Domains of Controlllllllllll. Signal processing in aquatic ecosystems.

Advertisements

1 Samples are stored in a cold room at optimal storage temperature and humidity.

1 Water discharge rate is monitored continually. 2 Sampling of stream and drainage water is made automatically or by grab sampling weekly while groundwater.

Ranking Brook Trout Habitat Patches for Resiliency to Climate Change Brad Trumbo And Mark Hudy USDA Forest Service Fish and Aquatic Ecology Unit James.

HELM Computer Aided Assessment Presented by David Pidcock Project Manager.

National Assessment of Ecological C Sequestration and Greenhouse Gas Fluxes – the USGS LandCarbon Project Zhiliang Zhu, Project Chief, What.

Lake Status Indicator Selection David F. Staples Ray Valley.

SUSANNA SCOTT MIAMI UNIVERSITY Ecosystem Metabolism: Response to Storm Events.

Ramsar Convention on Wetlands ( Ramsar Convention on Wetlands ( Convention on Wetlands “The conservation and wise use of.

BLUE GROWTH CALL AREA 3 : Ocean observation systems and technologies Horizon 2020 Societal Challenge 2 Info Day 17/01/2014 Dr Efthimios ZAGORIANAKOS.

WP12. Hindcast and scenario studies on coastal-shelf climate and ecosystem variability and change Why? (in addition to the call text) Need to relate “today’s”

7/18/05 Interdisciplinary Modeling for Aquatic Ecosystems Curriculum Development Workshop Water Quality Modeling John J. Warwick, Director Division of.

What are the potential impacts of climate change on fresh water recreational fishing opportunities in the U.S.? Presentation to: Water Ecology and Climate.

Problem Description: To develop an autonomous network for monitoring aquatic environment Problem Description: To develop an autonomous network for monitoring.

LONDON’S GLOBAL UNIVERSITY MSc Remote Sensing An interdiscinplinary MSc.

National Oceanic and Atmospheric Administration

1 EUROPEAN TOPIC CENTRE ON WATER The EEA’s needs for data and information on transitional, coastal and marine waters - proposed indicators.

Page 1 CONSULTANCY AND RESEARCH IN AQUACULTURE AND THE AQUATIC ENVIRONMENT A Company in the NIVA-group Methodology for Environmental monitoring of aquaculture.

The Use of AVHRR NDVI in Environmental Applications Contact: Elizabeth R. McDonald ERIN Remote Sensing Coordinator Department of the Environment and Heritage.

Riga, 25 th April 2007 Expert meeting Twinning LV/2005-IB/EN/01 Water Quality.

Integrated Catchment Management Key Elements - Julie Burke.

Identify key features and characteristics of atmospheric, geological, hydrological, and biological systems as they relate to aquatic environments.[AQS.4A]

Characterization Report Module 2: Water Budget, Pressures and Impacts, Significant Water Management Issues, Monitoring, Characterization Report Characterization.

Internationally Shared Ground Waters Bosnia and Herzegovina Semra Fejzibegović.

Ecological Succession Notes (3.1)

U.S. Department of the Interior U.S. Geological Survey Dr. Robert M. Hirsch Associate Director for Water April 16, 2007 USGS: Water Resources Program.

Dr Richard Johnson, Mountain Environments, UK.  Lead Partner: Germany: Research Institute of Forest Ecology and Forestry  Partner countries: Germany,

PNI Plankton and Nutrient Investigations. What is PNI ? A Chesapeake Bay Trust-funded collaboration among: Carroll County Public Schools Maryland Sea.

Florida Fish and Wildlife Conservation Commission Invertebrate Communities as Tools for Establishing Minimum Flows and Levels in Florida Streams.

Automated Weather Observations from Ships and Buoys: A Future Resource for Climatologists Shawn R. Smith Center for Ocean-Atmospheric Prediction Studies.

OPTIMA October 2004 WP01 Requirements and constraints.

1 Factors influencing the dynamics of excessive algal blooms Richard F. Ambrose Environmental Science and Engineering Program Department of Environmental.

WGE 29th session, September Brit Lisa Skjelkvåle ITEM 4 Acidification and eutrophication ICP Waters ECE/EB.AIR/WG.1/2010/6.

Task DA Sensor Webs Enablement for In-Situ Observing Network Facilitation Dr. Jay Pearlman Presentation to ADC May 14, 2007.

Integrated Catchment Assessment and Management Centre.

Sustaining Lakes in a Changing Environment - SLICE.

Data Acquisition & Data Management Ronald Muzzi Electronics Engineer GLERL’s Marine Instrumentation Lab.

BY MRS. SHAW AND THE CARY INSTITUTE OF ENVIRONMENTAL SCIENCE Eutrophication Lab.

Inter-American Institute for Global Change Research an intergovernmental organization for global change research socio-economic implications international.

Introduction to Ecosystem Monitoring and Metabolism

1 Critical Water Information for Floods to Droughts NOAA’s Hydrology Program January 4, 2006 Responsive to Natural Disasters Forecasts for Hazard Risk.

End Show Slide 1 of 21 Copyright Pearson Prentice Hall O Outline 3-1: What Is Ecology?

Assessment of Assessments Victor Cotruta Executive Director REC Moldova Meeting of the WGEMA Geneva,

Delaware’s Non-Tidal Monitoring Update for CY 2011 February 8,

Goal: to understand carbon dynamics in montane forest regions by developing new methods for estimating carbon exchange at local to regional scales. Activities:

A. Hangan, L. Vacariu, O. Cret, H. Hedesiu Technical University of Cluj-Napoca A Prototype for the Remote Monitoring of Water Parameters.

Sustaining Lakes in a Changing Environment - SLICE.

1 Scenario formulation Scenario-based planning is a structured way of thinking about what might happen in the future Scenarios are descriptions of possible.

E u r o p e a n C o m m i s s i o nCommunity Research Global Change and Ecosystems Malta, 27 January 2004 Alan Edwards EUROPEAN COMMISSION GMES – Implications.

Bridging the gap between water managers and research communities in a transboundary river: Nutrient transport and monitoring regimes in the Drim/Drini.

Future needs and plans for ocean observing in the Arctic AOOS Arctic Town Hall Futur Zdenka Willis Integrated Ocean Observing System National Program Office.

Ecologic.de Public Participation- Key element of EU Water Policy Nicole Kranz Ecologic - Institute for International and European Environmental Policy.

MONITORING FREQUENCIES AND OPTIMIZATIONS.

Challenges, results and experience with cross-border cooperation - local and national level impacts - DRIMON and Transboundary Prespa Lake Basin Crossing.

Climate Change Scenarios for Brook Trout Persistence: Issues of Scale Mark Hudy October 2010 US Forest Service Fish and Aquatic Ecology Unit, Harrisonburg,

SOUTH FLORIDA WATER MANAGEMENT DISTRICT San Carlos Bay Project and System- Wide Monitoring in the Caloosahatchee River and Estuary Peter Doering, Ph.D.

Environmental monitoring Continuous in-situ monitoring systems.

Towards a network of automatic lake water quality monitoring buoys in the UK Background Microbial growth and physical processes, such as mixing events,

Source: Paul Hanson. Collaboration in Environmental Science Global Lake Ecological Observatory Network A grassroots network of –People: lake scientists,

ICP Waters International Cooperative Programme Assessment and Monitoring Effects of Air Pollution on Rivers and Lakes Item 4 Recent results and updating.

Pradeep Mehta PhD, MSc (Forestry) Earthwatch Institute India

Dr. Sergey Kudelya Project manager

Water uvm november 13th 2017 brendan fisher.

OOutline 3-1: What Is Ecology?

20th Century Environmental Change Preserved by Lake Sediments

Chapter 3 Section 1 What is Ecology?

Anna-Stiina Heiskanen Luc Feyen

The role of Earth Observation in monitoring and reporting SDG Indicator Jason Jabour, UN Environment,

Chapter 3 Section 1 What is Ecology?

Presentation transcript:

Managing aquatic systems using in-situ sensor technologies Background: Lakes and rivers are used for a range of ecosystem services including supply of potable water, recreation and fisheries. Lakes are sensitive to what happens in the catchment, particularly climate and nutrient loading. Thematic Area: Environmental Science Valerie McCarthy, Dundalk Institute of Technology

Until recently monitoring relied on discrete samples, later analysed in the laboratory. Typically provided weekly to monthly resolution. Now possible to monitor automatically at high frequency using sensors mounted on in-situ platforms or buoys. Developments in lake monitoring Allows new insights into the processes that drive change at sub-daily and hourly intervals & web-based observations now possible.

Proposed Activities Overall Goal: To deploy monitoring systems and use the data collected to gain new insights into system processes. Focus on the use of high-frequency data from lakes and reservoirs to inform water resource management. Specific interest in the role of aquatic ecosystem functioning in carbon processing now and under future climate change scenarios. Relevant Areas: Application and development of in-situ sensors for lake monitoring Data acquisition and management. Ecological modelling Contact: