PUBLICATIONS
OceanObs’19 Community White Papers
2020
Cronin, et al. (2020) “Evolving and Sustaining Ocean Best Practices Workshop IV 18; 21-25 & 30 Sep 2020 [Online] Proceedings”
Anderson, C. R. et al. (2019) “Scaling up from regional case studies to a global harmful algal bloom observing system”
Ardhuin, et al. (2019) “SKIM, a candidate satellite mission exploring global ocean currents and waves”
Bange et al. (2019) A Harmonized Nitrous Oxide (N2O) Ocean Observation Network for the 21st Century.
Bax, et al. (2019) A response to scientific and societal needs for marine biological observations.
Bourassa, et al. (2019) “Remotely Sensed Winds and Wind Stresses for Marine Forecasting and Ocean Modeling”
Centurioni, et al. (2019) “Multidisciplinary Global In-Situ Observations of Essential Climate and Ocean Variables at the Air-Sea Interface in Support of Climate Variability and Change Studies and to Improve Weather Forecasting, Pollution, Hazard and Maritime Safety Assessments”
Domingues, et al. (2019) “Ocean Observations in Support of Studies and Forecasts of Tropical and Extratropical Cyclones”.
Fennel, K. et al. (2019) Carbon cycling in the North American coastal ocean: A synthesis, Biogeosciences Discuss.
Gommenginger, et al. (2019) “SEASTAR: a mission to study ocean submesoscale dynamics and small-scale atmosphere-ocean processes in coastal, shelf and polar seas”
Hermes, et al. (2019) A Sustained Ocean Observing System in the Indian Ocean for Climate Related Scientific Knowledge and Societal Needs.
Jamet, C., et al. (2019) “Going Beyond Standard Ocean Color Observations: Lidar and Polarimetry”.
Kent et al. (2019) “Observing requirements for long-term climate records at the ocean surface”
Lombard, et al. (2019). Globally Consistent Quantitative Observations of Planktonic Ecosystems.
Meinig, et al. (2019) Public–Private Partnerships to Advance Regional Ocean-Observing Capabilities: A Saildrone and NOAA-PMEL Case Study and Future Considerations to Expand to Global Scale Observing.
Morrow, R. et al. (2019). “Global Observations of Fine-Scale Ocean Surface Topography With the Surface Water and Ocean Topography (SWOT) Mission”.
Muelbert, et al. (2019) ILTER – The International Long-Term Ecological Research Network as a Platform for Global Coastal and Ocean Observation.
Newman, et al. (2019). Delivering sustained, coordinated and integrated observations of the Southern Ocean for global impact.
Pearlman, et al. (2019) Evolving and Sustaining Ocean Best Practices and Standards for the Next Decade. Edited by: Hervé CLAUSTRE.
Pinardi, et al. (2019) The Joint IOC (of UNESCO) and WMO Collaborative Effort for Met-Ocean Services.
Powers, et al. (2019) Lessons From the Pacific Ocean Portal: Building Pacific Island Capacity to Interpret, Apply, and Communicate Ocean Information.
Smith, et al. (2019) “Ship-Based Contributions to Global Ocean, Weather, and Climate Observing Systems”
Steinhoff, et al. (2019) “Constraining the oceanic uptake and fluxes of greenhouse gases by building an ocean network of certified stations: the ICOS Oceans Network”
Subramanian, et al. (2019) Ocean Observations to Improve Our Understanding, Modeling, and Forecasting of Subseasonal-to-Seasonal Variability.
Swart et al. (2019) “Constraining Southern Ocean air-sea-ice fluxes through enhanced observations”
Villas Boas, et al. (2019) “Integrated observations and modeling of winds, currents, and waves: requirements and challenges for the next decade”
Vinogradova, et al. (2019) “Satellite salinity observing system: recent discoveries and the way forward”.
Wanninkhof et al. (2019) “A surface ocean CO2 reference network, SOCONET and associated marine boundary layer CO2 measurements”
2019
2018
Bax, et al. (2018) “Linking capacity development to monitoring networks to achieve sustained ocean observation.”
Benson, et al. (2018) “Integrated observations and informatics improve understanding of changing marine ecosystems.”
Muller-Karger, et al. “Advancing marine biological observations and data requirements of the complementary essential ocean variables (EOVs) and essential biodiversity variables (EBVs) frameworks.”