Institut de Recherche pour le Développement, Centre de Nouméa 101 Promenade Roger Laroque Anse BP A5
98848 Noumea Cedex
New Caledonia
| 0 | Opening |
| 1 | Assessment of Pacific Island Ocean Observing Capacity, National Reports to include Ocean Observing Requirements & Applications |
| 1.1 | New Caledonia’s Ocean Observing System |
| 1.2 | Ocean Observations and Future Requirements for Tonga |
| 1.3 | Tuvalu National Report |
| 1.4 | Solomon Islands’ Ocean Observing System, Future Requirements for Applications |
| 1.5 | Micronesia’s Ocean Observing System 2, Future Requirements for Applications |
| 1.6 | Emerging Ocean Observation Networks in the Fiji Islands |
| 1.7 | Thailand’s Ocean Observing System, Future Requirements for Applications |
| 1.8 | Australia’s Integrated Marine Observing System (IMOS) a Decade On |
| 1.9 | PacIOOS: Ocean Observing in the U.S. Affiliated Pacific Islands |
| 1.10 | Status of the Tropical Pacific Observing System for 2020 TPOS-2020 (TPOS-2020) |
| 2 | Stakeholders, Societal Applications of Ocean Observations and Models |
| 2.1 | Introduction to Waves and Coastal Hazards, Modelling and Forecasting |
| 2.2 | Status of Pacific Islands Ocean Observing Networks, TAO-TRITON, XBT, Argo, Gliders, Drifters |
| 2.3 | Pacific Island Tide Gauges and the Global Sea Level Observing System (GLOSS) |
| 2.4 | Pacific Sea Level Monitoring and Available Data Products |
| 2.5 | Supporting decision-making and Community Resilience with Ocean Information |
| 2.6 | Monitoring the Ecological Impacts of Ocean Acidification on Coral Reefs |
| 2.7 | Responding to the 2016 Coral Bleaching along the Great Barrier Reef: Observations to Modelling |
| 2.8 | Use of Multirotor and Fixed Wing UAV to Assess Impacts of TC Pam in Vanuatu |
| 2.9 | Assessment of Inundation Extent and Wave Run Up in Ovalau, Fiji following TC Winston |
| 2.10 | A Plan for Coastal Hazards Monitoring in Indonesia’s Small Island: The Ambon Bay Case |
| 2.11 | Joint WMO-IOC Technical Commission for Oceanography and Marine Meteorology (JCOMM) contribution to the WMO Integrated Global Observing System (WIGOS) Pre-Operational Phase (2016-2019) |
| 3 | How to Access Available Regional Ocean Observations Data, Ocean Models for Predicting Weather, Ocean State and Climatology |
| 3.1 | Introduction of Regional Marine Instrument Center for Asia-Pacific and the Contribution to PI |
| 3.2 | Best Practice for Ocean Data management and Service at NMDIS/China |
| 3.3 | Brief Introduction of Chinese Observing Systems and the Development of Marine Standards and Metrology System |
| 3.4 | JCOMM in-situ Observing Platform Support Centre (JCOMMOPS) - Access to Data |
| 3.5 | Accessing real-time and Climate Data from Web Browsers and Desktop Applications |
| 3.6 | COSPPac Ocean Portal and Applications in the Pacific |
| 3.7 | Availability of Pacific Drifter Data in Support of Numerical Weather Prediction (NWP) and other Applications |
| 4 | Conceptualization of a Pacific Islands Ocean Observing System to Enhance Model Predictive Capability for Stakeholders |
| 4.1 | Surface Drifter Technology and Examples of Lagrangian Experiments Planning |
| 4.2 | Ocean Climate Interactions: What News Before COP22? |
| 4.3 | COSPPac Ocean & Tides Capacity |
| 4.4 | Discussion: How Best to Serve PI Stakeholders by Strengthening Existing Ocean Observing Systems to Continue Operations and to Help Fill Identified Gaps |
| 4.5 | Round-Table to Document |
| 4.6 | Workshop Assessment, Action Items and General Discussions |
| 4.7 | Workshop Wrap-Up |
| 4.8 | Workshop Concluding Remarks |
| 4.9 | DBCP’s Second Pacific Islands Training Workshop On Ocean Observations and Data Applications (PI-2) Adjourns |