The Norwegian Ferrybox network and stakeholder needs

1. The Norwegian Ferrybox networkand stakeholder needs Norwegian Institute for Water Research Henning Wehde large group of people in NIVA contributing to monitoring activities

2. Geomor-NIVA NIVA-group: 240 NIVA: 192 Akvaplan-niva: 43 Geomor-NIVA: 5 NIVA-Tech AS Subsidiary in Tromsø: Subsidiary in Gdansk: NIVA’s regional offices: - Trondheim- Hamar - Bergen - Grimstad Subsidiary in Stokholm: Trondheim ”AquaBiota AB” University for Env. & Bio-sciences Marine research station Solbergstrand

3. Outline • Stakeholder needs • The Ferrybox network in Norwegian waters and additional monitoring activities • Data dissemination and web portals • Conclusions

4. Stakeholder needs • Knowledge on supply of pollutants and undesired species • Concentration and transport within the norwegian waters • Monitoring of algal blooms, eutrophication and particles • Air pollution • Supply of pollutants from Oil and gas industry

6. Stakeholder needs I • Discharges and transport of pollutants to norwegian waters from all possible sources • From land and rivers • From air national and international • Long transported • Oil and gas industry • Shiptrafik • Natural discharges from the bottom • Suspension/Resuspension of sediments

7. Stakeholder needs II • Long term monitoring environment quality for coastal areas (WFD) • Algal concentrations and changes in species composition • Nutrients • Soft and hardbottom fauna • hydrography

8. The Ferrybox network in Norwegian waters

9. Ferrybox in Norwegian waters Norbjørn, NIVA/Akvaplan-niva Trollfjord, NIVA/Akvaplan-niva Vesterålen, IMR Norønna, NIVA/FRS/ Univ. Rhode Island Bergensfjord, NIVA Color Fantasy, NIVA Lysbris, GKSS/NIVA

10. Circulation variability Ferrybox Norönna Two months sailings from Denmark Temperature °C .indicate 100km intervals

11. Separate water intake and outlet 4 meters depth Pump-Axflow 2l/min Pressostat control ISCO water sampler (24/14 L bottles) Remotely or fixed positions Wet sensor closet(s) Measurements - one minute Electronics closet Com (RS232) port server with LAN communication (under testing) PC with Internet or GPRS comm. LAN communication to deck Labview software NIVA’s standard system Example from Color Fantasy (Oslo-Kiel) Color Fantasy (and Trollfjord) has a small laboratory for testing of new sensors, work underway (Freezer, filtr. unit e.g.)

12. Temp-Inlet (SBE31) Temp/salinity (SBE45) Oxygen (Optode, AADI) Turbidity (Polymetron) Chl-a_Fl (TriOS) Phycocyanin (TriOS) CDOM (TriOS) Cleaning Air-pressure cleaning - harbour Weekly manually cleaning Instruments and sensors

13. Downwelling irradiance Downwelling radiance Air pressure Upwelling radiance Irradiance and UV sensor from TRiOS Two (port and starboard) downwelling TriOS radiance Ramses sensors Two (port and starboard) upwelling TRiOS Ramses sensors Deck sensors Satellite validation and atmosphere optical properties

14. Scanning Infrared Sea surface Temperature Radiometer - SISTeR Skin SST • 3 narrow-band filters centred at 3.7µm, 10.8µm and 12.0µm • can differ significantly from the bulk SST especially during the day and at low wind speeds. • Upwelling radiances from the sea surface • downwelling sky radiances and precipitation for correcting for emissivity of the sea surface

15. Sensors under testing or under consideration Analysator for PO4, NO3, SiO2 Optical sensor for oil (PAH) Optical sensor for CO2 Optical sensor for NO3 pCO2 systems Passive samplers, e.g. SPMD or DGT Test in 2009 • Others: • Radioactivity • pH

16. Nuka Arctica – ship-mounted ADCP since 1999 RDI ADCP – 75kHz Nearly 50 sections in total (1999-2002): South ~59°N North ~61°N Iceland Collaboration with the Univ. of Bergen

17. Examples of Application Monitoring and satellite product validation

18. Sampling from Ferrybox Oslofjord monitoring program Chl-a (mg/m3) Sampling from traditional research cruises Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Des

19. Validation of satellite chlorophyll by Ferrybox data - February 2008

20. Phytoplankton Spring bloom in 2007 captured by MS Color Festival Oslo 60N 59N Mar 58N Feb Chl-a [mg/m3] Fredrikshavn Jan

21. National monitoring programs

22. Acid rain (SN)

23. Long transported air pollution • Sampling in water to get estimates of deposition • 80 lakes with annual sampling • 7 stations with weekly sampling • 2 rivers with monthly sampling

24. RIDRiverine input and direct discharges to Norwegian coastal waters • Supply of pollutants and nutrients to norwegian coastal areas • 10 main rivers • 36 additional rvers • Theoretical implementation (modelling) of not monitored rivers • OSPAR

25. CEMP (Coordinated environmental monitoring programm

26. Dissemination and web portals

27. SatOcean - NIVA web portal (www.ferrybox.no)

28. Improved monitoring for wealth creation

29. EC-InterRisk (FP6)Interoperable GMES services for environmental risk management in marine and coastal areas of Europe.

30. Towards an integrated system for operational management of the environment Forecasting Met.no, NERSC Ferrybox NIVA Risk management Satellite data NIVA, NERSC in situ Control NIVA, FHL

31. Summary • Requirements of stakeholders • Operational monitoring work at NIVA • Ferrybox • National monitoring programm • Acid rain • Long transported pollution • River runoff • CEMP • Dissemination of data