2. Presentation Outline Status of current investments Research infrastructure available Uptake and use of the data streams (infrastructure) Potential for collaboration with TERN N.B. IMOS perspective
3. Status of current investments IMOS established 2007 Ramp-up phase 2007-9 NCRIS investment peaked in 2009-10 2009 EIF investment, to enhance and extend stable at ~$45M pa >50% co-investment Institutional partners Other partners mainly Aust. Government State Governments We are here $50M
4. Research infrastructure available National-scale, in-situ, ocean observing system Integrated (IMOS) open-ocean to coastal physics, chemistry and biology Data-centric – all data discoverable, accessible and used by the science community and others
5. Research infrastructure available- 10 platform-based national Facilities Argo Floats Ships of Opportunity Deepwater Moorings Ocean Gliders Autonomous Underwater Vehicles National Mooring Network Ocean Radar Animal Tagging and Monitoring Wireless Sensor Networks Satellite Remote Sensing
6. Research infrastructure available UNSW U Sydney Macquarie UTS Led by UTAS on behalf of the marine and climate science community National Office and eMII Major institutions around the nation own and operate components of the system institutional strengths/expertise, available to all the community All make the data available to the whole community condition of contract
29. Uptake and use of the data streams Marine and climate science Bluewater and coastal science Physics, chemistry and biology (ecosystem) In-situ observing and vessel-based observing and remote sensing Observations and modelling Validation and model development Data assimilation Observing system design And very significant international collaboration It’s a broad church...
30. Uptake and use of the data streams Decisions about what to observe, and where, are driven by Science Plans addressing five major research themes Multi-decadal Ocean Change Climate Variability and Weather Extremes Major Boundary Currents and Inter-basin Flows Continental Shelf Processes Ecosystem Responses
31.
32. Cross-institutional initiatives shown in (brackets)AIMS CDU ANU NT Govt (ATRF) AIMS JCU (TMN) (AIMS@JCU) CSIRO UQ Griffith Q DERM Q DEEDI (Ecosciences Precinct) UWA AIMS CSIRO Curtin Murdoch Edith Cowan WA DEC WA Fisheries WA DoT (WAMSI) (IOMRC) UNSW U Sydney Macquarie UTS (SIMS) DECCW NSW I&I DSTO SARDI Flinders U Adelaide SA ENR PIRSA (MISA) BOM CSIRO (CAWCR) U Melbourne Deakin MAFRI Vic EPA UTAS/TAFI CSIRO AAD ACE CRC (IMAS) CSIRO GA ANU ABARES
33. Uptake and use of the data streams IMOS investments are guided by community-driven science and implementation plans (Node plans) They have all been internationally peer-reviewed And have evolved into an IMOS national science plan, with regional Node ‘chapters’
34. Potential for collaboration with TERN- National, Regional, Functional National Coastal Zone, a ‘shared space’ Marine, Terrestrial, Freshwater, Geophysical, Atmospheric Environmental information National leadership in changing the culture Regional Making integration real Focus of IMOS, Focus of TERN, integrated modelling... Functional Satellite Remote Sensing Information Management
40. others in the Australian marine and climate science community Integrated Marine Observing System University of Tasmania Private Bag 110 Hobart Tasmania 7001http://www.imos.org.au
Hinweis der Redaktion
Ocean heat content (fromCatiaDomingues)ERA40 Heat Flux (from Eric Schulz)Mean and standard deviation of temperature along PX34 (from Ken Ridgway)Glider transect, Chlorophyll a (from Chari Pattiaratchi)White shark movements (from Rob Harcourt/BarryBruce)