WP4 HARMONIZING OPERATION AND MAINTENANCE METHODS

1. WP4HARMONIZING OPERATION AND MAINTENANCE METHODS Hellenic Centre for Marine Research HCMR George Petihakis PARIS – Maison de la recherche - 24 & 25 May 2011

2. Objectives Based on the experience of infrastructure operators and relevant regional activities, this WP will: • gather elements of best practice in conducting operations and maintaining coastal observatories, • identify the successes in terms of systems autonomy and reliability, • propose common procedures to be followed by all operators PARIS – Maison de la recherche - 24 & 25 May 2011

3. PARIS – Maison de la recherche - 24 & 25 May 2011

4. Time table PARIS – Maison de la recherche - 24 & 25 May 2011

5. Task 4.1 Calibration(M1 – M42), (HZG, OGS, SMHI, SYKE, NERC(POL), HCMR, CNR, IH) Objectives: • standardize and harmonize various facilities across European networks, • share existing calibration facilities within the network, thus significantly reducing costs • exchange and transfer know-how within the network through a series of workshops, seminars and staff exchange. PARIS – Maison de la recherche - 24 & 25 May 2011

6. SubTask 4.1.1: Physical sensors T, S, DO, Currents, Sea-bed Pressure(OGS, NERC(POL), CNR HCMR) Actions: • Harmonization of calibration practices through: • documentation and assessment of existing calibration methodologies, equipment, and reference material currently in use within JERICO suggesting recommendations for standardization and • organization of joint calibration exercises among partners to arrive at a consensus on methodologies and specifications. • Sharing of calibration facilities including: • joint meetings for documentation of existing calibration infrastructures within JERICO • identification/definition of potential trans-network “nodes” for these services. PARIS – Maison de la recherche - 24 & 25 May 2011

7. Actions cont… • Dissemination of know-how and the fostering of technical collaborations/partnerships to deal with pressure, temperature, salinity and dissolved oxygen calibration issues. This activity will provide material to WP6. PARIS – Maison de la recherche - 24 & 25 May 2011

8. SubTask 4.1.2: Optical sensors Chl-a, Turbidly, PAR (SMHI, IH, OGS, SYKE) Actions: • Harmonization of calibration practices through documentation and assessment of existing calibration methodologies, equipment, and reference material currently in use within JERICO • Sharing of calibration facilities including: • joint meetings for documentation of existing calibration infrastructures within JERICO • identification/definition of potential trans-network “nodes” for these services. • Designation of best practices for the use of optical sensors. This includes recommendations on time of day and frequency for sampling, calibration procedures, anti fouling measures and procedures to combine different data to produce high quality products. PARIS – Maison de la recherche - 24 & 25 May 2011

9. SubTask 4.1.3: Chemical sensors-Nutrients(HZG, CNR) Chemical sensors (either wet chemistry of in situ methods) need frequent calibrations and validation with insitu samples in order to have a satisfactory quality. This is due to deterioration of chemicals, interference with other substances in the water (seasonal or spatial) and other factors. Two main categories can be identified: • wet chemistry sensors for nutrients such as NH4, NO2/NO3, PO4, SiO4 • optical sensors, currently only for NO3. Actions: • standardisation of Standard Operation Procedures (SOPs) for calibration, adopting common procedures on comparisons with samples (time interval, sampling procedure etc.) PARIS – Maison de la recherche - 24 & 25 May 2011

10. Actions cont… • practices on analytical methods applied on seawater samples for in situ validation and long term performances evaluation of chemical sensors (pH, Total Alkalinity, TCO2, dissolved oxygen, dissolved inorganic nutrients, total/dissolved organic carbon) will be documented and harmonized. • sharing of facilities and inter-calibration exercise between the involved institutions in order to assure a common lab quality PARIS – Maison de la recherche - 24 & 25 May 2011

11. Task 4.2 Biofouling prevention(M1 – M42), (CNR, HCMR, SYKE, NERC(POL), HZG, NIVA, IFREMER, CNRS) Objectives: • all different methods used across the network will be described with reference to the cost (implementation, maintenance) and adaptability (different sensors and areas), • there will be sharing of best practices and methodologies across the network with the aim towards a common approach • new methods used by the community external to JERICO will be evaluated to identify and suggest possible future implementation. PARIS – Maison de la recherche - 24 & 25 May 2011

12. SubTask 4.2.1: Physical sensors T, S(HCMR, NERC(POL), IFREMER, CNRS) Biofouling can cause deterioration of data quality for conductivity sensors especially on fixed platforms (including instrumented ferries) and on sea bed landers. Actions: • sensors by different manufactures, using different techniques and geometries, will be investigated to see which are the most reliable • dissolved oxygen sensors are commercially available which are claimed to be relatively immune to bio-fouling. These claims will be tested, as long data records are obtained PARIS – Maison de la recherche - 24 & 25 May 2011

13. SubTask 4.2.2: Optical sensors Chl-a, Turbity, PAR(SYKE, CNR, NIVA, HCMR) Optical sensors, especially fluorimeters are very sensitive to bio-fouling. Actions: • sensors by different manufactures, using different techniques and geometries, will be investigated to see which are the most reliable • dissolved oxygen sensors are commercially available which are claimed to be relatively immune to bio-fouling. These claims will be tested, as long data records are obtained PARIS – Maison de la recherche - 24 & 25 May 2011

14. SubTask 4.2.3: Chemical sensors-Nutrients (CNR, HZG, IFREMER) Actions: • identification of the chemical sensors used across the JERICO network and collection of information about the biofouling prevention methods used (implementation, maintenance and total cost). • screening and summary of scientific literature and reports on biofouling prevention methods applied to chemical sensors, including the ones that at present are not used in the JERICO network, but that are recognized a necessary implementation for future applications (as specified by WP1.2 Implementation plan and label definition) • comparison of the methodologies identified above with reference to effectiveness and cost. PARIS – Maison de la recherche - 24 & 25 May 2011

15. Task 4.3 End to end QA(M1 – M42), (HCMR, CSIC, NERC (NOCS, POL), CEFAS, SYKE, OGS, HZG, NIVA, IH, AZTI, MUMM, PUERTOS) Objectives: • to describe best practices in all phases of the system (pre-deployment test, maintenance, calibration etc) • to adopt common methodologies and protocols • move towards the harmonisation of equipment which will help in reducing maintenance and calibration costs. For this inter calibration tests and in-situ validation will be organised. PARIS – Maison de la recherche - 24 & 25 May 2011

16. SubTask 4.3.1: Fixed Platforms(PUERTOS, HCMR, IH, OGS, NERC(POL), AZTI) Operating fixed platforms although focusing on more or less the same parameters are characterised by very diverse equipment with different needs and requirements. Considering them as members of a European network it is very important to: Actions: • describe best practices in all phases of the system (preparation, deployment, maintenance, calibration etc) • adopt common methodologies and protocols • move towards improved overall system quality PARIS – Maison de la recherche - 24 & 25 May 2011

17. SubTask 4.3.2: Ferry Box(NERC(NOCS), HZG, SYKE, NERC(POL), NIVA, MUMM) FerryBoxes are characterised by the measurement of core variables (T, S, Chl a, Turbidity) which are currently measured with different sensors by different operators. This equipment diversity is true for additional measurements (eg nutrients, O2) which are not on all FerryBox operations. To enable regional comparisons (FerryBox to FerryBox), this diversity in sensors and variables requires: transparency in best practices in all phases of the setup (e.g. sensor type, deployment, housing, calibration etc). Such transparency will enable adoption of common procedures and hence lead to quality assurance. PARIS – Maison de la recherche - 24 & 25 May 2011

18. SubTask 4.3.3: Gliders(CSIC, OGS, CEFAS) Gliders is a new-technology platform; it is very important that right from the start there will be efforts towards adopting common methodologies and protocols as well as harmonisation of equipment at European level. This will help reducing maintenance and calibration costs. Actions: • describe best practices in all phases of the system with emphasis in the optimization of design strategy and quality control. • to adequately sample mesoscale and/or submesoscale structures in the coastal areas, we propose to evaluate and develop an optimal strategy for the deployment of individual and/or coordinated schools of gliders. PARIS – Maison de la recherche - 24 & 25 May 2011

19. Actions cont… • Specific quality control procedures will be developed for T,S sensors (pumped/not pumped) in areas of intense gradients such as the thermocline where thermal lag is an important issue. PARIS – Maison de la recherche - 24 & 25 May 2011

20. SubTask 4.3.4: Running costs (CEFAS, HCMR, NIVA, CSIC, OGS, NERC(POL, NOCS), MI, HGZ, AZTI, MUMM) The long term sustainability of the observing systems is an important issue with running costs being the most significant burden. JERICO will provide a unique opportunity. Actions: • to describe in an analytical form the expenses emanating by the operation of each different system. This will be a valuable tool as it will enable the operators to compare, adjust, improve and exchange practices with ultimate goal the minimisation of costs • to examine the possibility of shared resources i.e. Research Vessels, personnel PARIS – Maison de la recherche - 24 & 25 May 2011

21. Deliverables • D4.1) Report on existing facilities: Task 4.1 - Report on existing facilities with the capacity to handle pressure, temperature, salinity and dissolved oxygen calibrations amongst the active coastal observing networks [month 18]  Questionnaire • D4.2) Report on calibration best practices: Task 4.1 - Report on calibration best practices for the different sensors [month 36]  Workshop • D4.3) Report on biofouling prevention methods: Task 4.2 - Report on biofouling prevention methods [month 36]  Workshop + exercises PARIS – Maison de la recherche - 24 & 25 May 2011

22. Deliverables cont… • D4.4) Report on best practice in operation and maintenance: Task 4.1 - Report on best practice in conducting operations and maintaining of different systems [month 42]  Workshop • D4.5) Report on running costs: Task 4.3 - Report on running costs of observing systems [month 42]  Questionnaire PARIS – Maison de la recherche - 24 & 25 May 2011

23. Milestone • Constitution of a permanent Working Group for calibration activities PARIS – Maison de la recherche - 24 & 25 May 2011

24. Summary Task 4.1: Calibration Duration: M1 – M42, Responsible: HZG Partners: OGS, SMHI, SYKE, NERC(POL), HCMR, CNR, IH) SubTask 4.1.1: Physical sensors T, S, DO, Currents, Sea-bed Pressure Responsible: OGS Partners: NERC(POL), CNR, HCMR SubTask 4.1.2: Optical sensors Chl-a, Turbidly, PAR Responsible:SMHI Partners: IH, OGS, SYKE SubTask 4.1.3: Chemical sensors-Nutrients Responsible: HZG Partners:CNR Task 4.2: Bio fouling prevention Duration: M1 – M42, Responsible: CNR Partners: HCMR, SYKE, NERC(POL), HZG, NIVA, IFREMER, CNRS SubTask 4.2.1: Physical sensors T, S Responsible:HCMR Partners: NERC(POL), IFREMER, CNRS SubTask 4.2.2: Optical sensors Chl-a, Turbity, PAR Responsible: SYKE Partners: CNR, NIVA, HCMR SubTask 4.2.3: Chemical sensors-Nutrients Responsible: CNR Partners: HZG, IFREMER Task 4.3: End to end quality assurance Duration: M1 – M42 Responsible:HCMR Partners: CSIC, NERC(NOCS, POL), CEFAS, SYKE, OGS, HZG, NIVA, IH, AZTI, MUMM, PUERTOS SubTask 4.3.1: Fixed Platforms Responsible:PUERTOS Partners: HCMR, IH, OGS, NERC(POL), AZTI SubTask 4.3.2: Ferry Box Responsible:NERC(NOCS Partners: HZG, SYKE, NERC(POL), NIVA, MUMM SubTask 4.3.3: Gliders Responsible: CSIC Partners: OGS, CEFAS SubTask 4.3.4: Running costs Responsible: CEFAS Partners: HCMR, NIVA, CSIC, OGS, NERC(POL, NOCS), MI, HGZ, AZTI, MUMM PARIS – Maison de la recherche - 24 & 25 May 2011

25. Time table PARIS – Maison de la recherche - 24 & 25 May 2011

26. Connections WP5 WP6 WP1 Data Quality Dissemination Label FCT Workshops State of the Art WP2 SA/TNA Emerging Technology TNA WP10 WP7 WP8 PARIS – Maison de la recherche - 24 & 25 May 2011

27. People involved IFREMER Yannick AOUSTIN SYKE JukkaSeppälä NIVA Kai Soerensen OGS Rajesh Nair CNR StefaniaSparnocchia HCMR George Petihakis NERC David Hydes HZG Wilhelm Petersen MUMM Patrick Roose CEFAS Naomi Greenwood SMHI BengtKarlson CSIC ?? MI Glenn Nolan AZTI Carlos Hernandez CNRS Laurent Coppola IH Antonio Martinho PUERTOS BegoñaPérezGómez PARIS – Maison de la recherche - 24 & 25 May 2011