HIGH FREQUENCY MONITORING IN THE SOMLIT NETWORK

Slides:

Advertisements

Similar presentations

Extreme climate in the 21 st century Noah S. Diffenbaugh Department of Environmental Earth System Science and Woods Institute for the Environment Stanford.

Advertisements

2010 update of GCOS IP in support of UNFCCC Paul Mason and Stephan Bojinski GCOS Steering Committee September 2010.

The Operational Marine Climate Monitoring and Forecasting System of Puertos del Estado (PE) Área de Conocimiento y Análisis del Medio Físico Puertos del.

Implementation of an automatic monitoring program with high frequency measurements (MAREL Carnot) in the eastern English Channel : a close watch on a potential.

Ocean Biogeochemistry (C, O 2, N, P) Achievements and challenges Nicolas Gruber Environmental Physics, ETH Zürich, Zurich, Switzerland. Using input from.

Lesson 12: Technology I Technology matters Most of the topics we’ve learned so far rely on measurement and observation: – Ocean acidification – Salinity.

Phosphorus eutrophication in an inter-drumlin lake: causes and effects Lucy Crockford Walsh Fellow Trinity College Dublin What’s impeding this lake’s recovery?

LTER Planning Process Science Task Force (STF) Report to NSF September 2005.

Massive Porites sp. corals as indicators of historical changes in river runoff: A case study for Antongil Bay (Masoala National Park, NE Madagascar ) J.

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

SENSORS, CYBERINFRASTRUCTURE, AND EXAMINATION OF HYDROLOGIC AND HYDROCHEMICAL RESPONSE IN THE LITTLE BEAR RIVER OBSERVATORY TEST BED Jeffery S. Horsburgh.

Problem Description: Networked Aquatic Microbial Observing System (NAMOS) Problem Description: Networked Aquatic Microbial Observing System (NAMOS) Proposed.

Parameters and instruments A. Proshutinsky, Woods Hole Oceanographic Institution Science and Education Opportunities for an Arctic Cabled Seafloor Observatory.

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

Hawaii Ocean Time-series (HOT) program Marine Microplankton Ecology

MIXED 12/4/021 Learning about Puget Sound: MIXED Kate Edwards UW Applied Physics Lab.

NOCES meeting Plymouth, 2005 June Top-down v.s. bottom-up estimates of air-sea CO 2 fluxes : No winner so far … P. Bousquet, A. Idelkadi, C. Carouge,

COMMENCE. ANTHROPOCENE COASTAL OCEAN CARBON-CARBONATE SYSTEM Fred T. Mackenzie 1, 2 Andreas Andersson 1, Katie Fagan 1, Dan Hoover 1, Abraham Lerman 2,

National Oceanic and Atmospheric Administration

Ocean Observations: Present and Future Capitol Hill Oceans Week June 10, 2004 Brig. Gen. David L. Johnson, USAF (Ret.) NOAA Assistant Administrator for.

Combining Long-term And High Frequency Water Quality Data To Understand Ecological Processes In Estuaries Jane Caffrey Center for Environmental Diagnostics.

Oregon’s Likely Future Climate Predicted Rainfall Changes in Oregon PNW rainfall will be about the same or a little higher Source: Climate Impacts Group,

NSF - CREST Center for the Integrated Study of Coastal Ecosystem Processes and Dynamics in the Mid-Atlantic Region Sub – Theme #1 Land Use and Climate.

Introducing an Integrated Marine Observing System for Australia (IMOS). Gary Meyers (IMOS Director) and John Middleton (SAIMOS)

Nancy N. Rabalais et al. Ocean Deoxygenation and Coastal Hypoxia

Work Package 2 / 3 TECHNOLOGICAL & PROCEDURAL HARMONISATION FixO3 General Assembly 14 th to the 16 th October 2014, Heraklion-CRETE ESTOC, PLOCAN,

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

Work Package 3 PROCEDURAL HARMONISATION Task 3.1: Assessment of procedures FixO3 General Assembly 14 th to the 16 th October 2014, Heraklion-CRETE Pericles.

UNCW Ocean Observing: Providing Infrastructure, Data, and Products to Support State and Federal Agency Needs AQUARIUS NOAA’s Undersea Research Center (NIUST,

Questions: What is the along-estuary spatial variability in physical, biological and chemical properties (temperature, salinity, dissolved oxygen, pCO2)

South Eastern Latin America LA26: Impact of GC on coastal areas of the Rio de la Plata: Sea level rise and meteorological effects LA27: Building capacity.

How much of our planet is H 2 O? BIOL 3240 Plant and Animal Ecology – Life in Water.

Continuous monitoring in the benthic boundary layer off the Northwestern Florida shelf. William M. Landing, Stephanie Fahrny, Kevin Speer, Markus Huettel.

CONRAD BLUCHER INSTITUTE ACTIVITIES SUPPORTING TEXAS PORTS AND WATERWAYS OPERATIONS Two Inter-related Services to the Port Community: 1. The Texas Coastal.

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

Consultation meetings: Jan 2005, Brussels, consultation meeting on topics for FP7 2-3 Feb 06, Brussels, Symposium in memoriam Anver Ghazi 17 Feb 06, Text.

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

Context Events Situation Limits Strategy Glider Observation of Suspended Particle Dynamics in the Gulf of Lions Gaël MANY 1, François Bourrin 1, Romaric.

Lake Pusiano field experiment: first preliminary results Greg Attwater & Diego Copetti, Supervisors: Giannni Tartari & Jorg Imberger.

CYCLE PO4 Wet Chemistry In-situ Nutrient analyzer.

Characterization of the coupling between oceanic turbulence and Variability of coastal waters optical properties, using in- situ measurements and satellite.

Ocean Weather Station M - from weather forecast to climate monitoring Ingunn Skjelvan Bjerknes Centre for Climate Research and Geophysical Institute, University.

Capitol Hill Oceans Week June 10, 2004 John Englander, CEO.

From Feely et al (2010) International Network. Diversity of Calcifiers.

Introduction to Ecosystem Monitoring and Metabolism

ROMS hydrodynamic model ROMS-RCA model for hypoxia prediction RCA biogeochemical model Model forced by NARR/WRF meteorological forcing, river discharge.

2006 OCRT Meeting, Providence Assessment of River Margin Air-Sea CO 2 Fluxes Steven E. Lohrenz, Wei-Jun Cai, Xiaogang Chen, Merritt Tuel, and Feizhou Chen.

MULTI-INFECTION PATTERN IN THE EXPLOITED MANILA CLAM (Ruditapes philippinarum) OF ARCACHON BAY (France) Dang C. 1, Saez S. 1, de Montaudouin X. 1, Caill-Milly.

Factors contributing to variability in pCO 2 and omega in the coastal Gulf of Maine. J. Salisbury, D. Vandemark, C. Hunt, C. Sabine, S. Musielewicz and.

*Minagawa M, Usui T, Miura Y, Nagao S, Irino T, Kudo I, and Suzuki K, Graduate School of Environmental Science, Hokkaido University, Sapporo ,

The Science Requirements for Coastal and Marine Spatial Planning Dr. Robert B. Gagosian President and CEO September 24, 2009.

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

Preliminary Results of the CASCADE Cruise (Gulf of Lions) R/V l’Atalante, March 2011 CEFREM, ICM-CSIC, UB, UPM, IFREMER, LA, HCMR, LOV, LMGEM,

NOAA Coastal CO 2 Measurements & Synthesis Christopher Sabine, Richard Feely, Simone Alin, Rik Wanninkhof, and many others North American Carbon Program.

What is the System-Wide Monitoring Program (SWMP) and What Can It Do For You?

Water quality sensors provide insight into the suspended solids dynamics during high flow events in the Lamprey River, NH Nicholas K. Shonka and William.

Irish Sea Public domain: From Irish National Tidegauge NetworkIrish National Tidegauge Network Mean spring tides.

Ocean-Tune: A Community Ocean Testbed for Underwater Wireless Networks Puget Sound Deployment Revision 0.1 July 19, 2012 Sumit Roy, Payman Arabshahi

“Upwelling of south region of Gulf of California. Fluxes of CO 2 and nutrients ” Leticia Espinosa Diana Escobedo (IPN-CIIDIR SINALOA)

Data and Metadata Archiving: Atlantic Coast Environmental INdicators Consortium (ACE INC) Lexia M. Valdes June 11, 2003 R

The “BIOoptics and CARbon Experiment” project (BIOCAREX) leverages the backbone of BOUSSOLE activities, and introduces new instrumentation and measurements.

BOUSSOLE bio-optics time series New developments in the frame of the BIOCAREX project Melek Golbol Vincenzo Vellucci 1, David Antoine 1, Malika Kheireddine.

S1 and E1 Observatories P.I & Institution: M. Ravaioli ISMAR-CNR of Bologna Data Manager: M. Ravaioli Participants: F. Riminucci, G. Stanghellini, C. Bergami.

The BOUSSOLE project was initiated in The goal is to establish a long-term time series of in situ bio-optical measurements (including radiometry,

Aquatic Ecosystems as Sentinels of Change Field Station & Marine Lab Emerging Initiatives Workshop November 17, 2011 Colorado Springs, CO Craig Williamson.

Land/Ocean Biogeochemical Observatory

Yi Xu, Robert Chant, and Oscar Schofiled Coastal Ocean Observation Lab

ATM OCN 100 – Summer 2002 LECTURE 37A

South Eastern Latin America

The Innovative Coastal-Ocean Observing Network (ICON)

Presentation transcript:

HIGH FREQUENCY MONITORING IN THE SOMLIT NETWORK WIMEREUX SOMLIT LUC / MER ROSCOFF BREST Eva Bucciarelli (IUEM), Renaud Vuillemin (OCBM), ?, and SOMLIT network HIGH FREQUENCY MONITORING IN THE SOMLIT NETWORK ARCACHON/ BORDEAUX VILLEFRANCHE / MER MARSEILLE BANYULS

SOMLIT OBJECTIVES (bi-monthly samplings): WIMEREUX LUC / MER ROSCOFF BREST WHY USING HIGH FREQUENCY (~HOURLY) SAMPLINGS ? - taking into account local impacts on SOMLIT station - understanding fine temporal scale processes - recording extreme events ARCACHON/ BORDEAUX VILLEFRANCHE / MER MARSEILLE BANYULS

- LOCAL IMPACTS AT SOMLIT SAMPLING SITE : Other parameters / extreme events e.g.: Rhône plume at SOMLIT Marseille WIMEREUX LUC / MER ROSCOFF BREST e.g.: river discharge at SOMLIT Brest: nitrates correlate with salinity and high frequency salinity is recorded at MAREL-IRoise ARCACHON/ BORDEAUX VILLEFRANCHE / MER MARSEILLE BANYULS

- UNDERSTANDING FINE TEMPORAL SCALE PROCESSES: SOMLIT - UNDERSTANDING FINE TEMPORAL SCALE PROCESSES: Towards a better understanding of the ecosystems functioning and physical / biogeochemical modelling: WIMEREUX LUC / MER ROSCOFF E.g.: nitrate variability (one of the main driver of primary productivity in coastal ecosystems) on the California Coast (Prien et al., 2007) E.g.: nitrate variability (one of the main driver of primary productivity in coastal ecosystems) on the California Coast (Prien et al., 2007) BREST 1 analysis/hour 1 analysis every 3 days 1 analysis per week ARCACHON/ BORDEAUX (http://www2.mbari.org/coletti/m1_isus.cgi) VILLEFRANCHE / MER E.g.: Estuarine Turbidity Maximum Oxygen Model (ETNOM) to be developed at UMR 5805 (Arcachon/Bordeaux site) MARSEILLE BANYULS

WHAT ABOUT MARINE ECOSYSTEMS? SOMLIT - RECORDING EXTREME EVENTS: Because extreme climatic events are predicted to increase in frequency and magnitude in response to anthropogenically enhanced greenhouse forcing (e.g.: Diffenbaugh et al., PNAS, 2005) « extreme precipitation is enhanced over coastal areas dominated by convective precipitation » They cause large, rapid population and community-level changes (e.g.: extreme flood events affected a desert rodent community, Thibault and Brown, PNAS, 2008): « Captured by chance through long-term monitoring, the impacts of such large, infrequent events provide unique insights into the processes that structure ecological communities. » WHAT ABOUT MARINE ECOSYSTEMS? WIMEREUX LUC / MER ROSCOFF BREST ARCACHON/ BORDEAUX VILLEFRANCHE / MER MARSEILLE BANYULS

Moored automated systems in the SOMLIT network Already recording Recording soon 2 sites Estacade - ASTAN): T, conductivity, O2, CO2, fluorescence, Meteorology WIMEREUX LUC / MER ROSCOFF BREST 1 site (MAREL buoy): T, conductivity, pH, O2, CO2, fluorescence, turbidity, nutrients ARCACHON/ BORDEAUX 1 site: T, conductivity, fluorescence, nutrients 1 site (EOL buoy): T, conductivity, O2 4 sites (MAGEST network): T, conductivity, O2, turbidity VILLEFRANCHE / MER 1 site: (MOLA buoy) T, conductivity, turbidity, fluorescence, nutrients MARSEILLE BANYULS

Suspended Particulate Matter POC, PON + C and N isotopes BREST WIMEREUX ROSCOFF BANYULS MARSEILLE VILLEFRANCHE / MER ARCACHON/ BORDEAUX SOMLIT LUC / MER SOMLIT PARAMETERS Temperature Salinity pH O2 Nutrients chlorophyll a Suspended Particulate Matter POC, PON + C and N isotopes pico-nano-plankton HF PARAMETERS Temperature/Conductivity (Arcachon, Banyuls, Brest, Villefranche, Marseille,Roscoff) pH (Brest) O2 (Arcachon, Brest, Villefranche, Marseille) Nutrients (Banyuls, Brest, Marseille) Fluorescence (Banyuls, Brest, Marseille, Roscoff) Turbidity (Arcachon, Banyuls, Brest) Other parameters : PCO2 (oceanic+atm: Brest) Atmospheric parameters (PAR, T, P, wind speed, atmospheric inputs...: Banyuls, Brest, Villefranche, Marseille)

HF PARAMETERS SENSORS/ANALYZERS BREST WIMEREUX ROSCOFF BANYULS MARSEILLE VILLEFRANCHE / MER ARCACHON/ BORDEAUX SOMLIT LUC / MER HF PARAMETERS Temperature/Conductivity (Arcachon, Banyuls, Brest, Villefranche, Marseille, Roscoff) pH (Brest) O2 (Arcachon, Brest, Villefranche, Marseille) Nutrients (Banyuls, Brest, Marseille) Fluorescence (Banyuls, Brest, Marseille,Roscoff) Turbidity (Arcachon, Banyuls, Brest) PCO2 (oceanic+atm: Brest) Atmospheric parameters (PAR, T, P, wind speed, atmospheric inputs...: Banyuls, Brest, Villefranche, Marseille) SENSORS/ANALYZERS LIQUISYS-M CLM 253, Seabird SBE 16, Endress-Hauser, Seabird SBE 3, Seabird Endress-Hauser LIQUISYS-M COM 253, Endress-Hauser, Seabird SBE 43, Seabird SYSTEA WIZ, CHEMINI, SYSTEA or ECOLAB Seabird SBE 16, Seapoint, Seabird LIQUISYS-M CUM 253, Seabird SBE 16, Endress-Hauser CARIOCA + LICOR 840 AIRMAR weather station, Weather station, QSP – 2200PD, Auris (Degreanne) weather station, MTX Italia impactor

Agence de l’Eau Adour-Garonne 3 EPTB (SMIDDEST, SMEAG, EPIDOR) SOMLIT WHO PAYS? Already recording Recording soon WIMEREUX LUC / MER OSU ROSCOFF BREST OSU IUEM IFREMER INSU (pCO2) ARCACHON/ BORDEAUX INSU/OSU + local fundings MAGEST Consortium : Agence de l’Eau Adour-Garonne 3 EPTB (SMIDDEST, SMEAG, EPIDOR) EDF and GPMB OSU/PPF Université/ CETSM VILLEFRANCHE / MER MARSEILLE UMS Laboratoire Arago BANYULS

Access restricted to the members of the MAGEST consortium SOMLIT WHERE ARE THE DATA? Already recording recording soon WIMEREUX LUC / MER OSU ROSCOFF BREST BDD IFREMER (raw data) + IUEM (processed data) Free access: form to fill ARCACHON/ BORDEAUX BDD MAGEST Access restricted to the members of the MAGEST consortium VILLEFRANCHE / MER BDD Laboratoire Arago Free access (form to fill) MARSEILLE BANYULS

To compare: 50 coastal moorings at Woods Hole... BREST WIMEREUX ROSCOFF BANYULS MARSEILLE VILLEFRANCHE / MER ARCACHON/ BORDEAUX SOMLIT LUC / MER REQUIREMENTS: Need for a wider use of the data (better communication and easier access) Staff and funding needed (technical work and data processing) QUESTION: is the development of a network of moored automated systems a priority in France ? To compare: 50 coastal moorings at Woods Hole...