Global in situ Observations of Essential Climate and Ocean Variables at the Air–Sea Interface

Centurioni, Luca; Turton, Jonathan D; Lumpkin, Rick; Braasch, Lancelot J.; Brassington, Gary B.; Chao, Yi; Charpentier, Etienne; Chen, Zhaohui; Corlett, Gary K.; Dohan, Kathleen; Donlon, Craig; Gallage, Champika; Hormann, Verena; Ignatov, Alexander; Ingleby, Bruce; Jensen, Robert E.; Kelly-Gerreyn, B.A.; Koszalka, Inga Monika; Lin, Xiaopei; Lindstrom, Eric; Maximenko, Nikolai; Merchant, Christopher J.; Minnett, Peter J.; O’Carroll, Anne; Paluszkiewicz, Theresa; Poli, Paul; Poulain, Pierre‐Marie; Reverdin, Gilles; Sun, Xiaoyun; Swail, Val R.; Thurston, S.; Wu, Lixin; Yu, Lisan; Wang, Bin; Zhang, Dongxiao

doi:10.3389/fmars.2019.00419

Cited by 65 publications

(43 citation statements)

References 147 publications

(168 reference statements)

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“…The authors recommend establishing routine communication between ship-and autonomous surface vessel-based science communities to develop and disseminate techniques between their domains, as an optimum ocean observational network is multi-platform. We expect autonomous surface vessels to play an ever-growing role in ocean observations for a variety of disciplines as new sensors become integrated (e.g., air-sea fluxes, ocean biogeochemistry, and fisheries; Swart et al, 2016;Centurioni et al, 2019). The role of the autonomous surface vessels to enhance and broaden existing and future shipbased observing needs to be defined.…”

Section: Leveraging Technological Advancesmentioning

confidence: 99%

Ship-Based Contributions to Global Ocean, Weather, and Climate Observing Systems

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The role ships play in atmospheric, oceanic, and biogeochemical observations is described with a focus on measurements made near the ocean surface. Ships include merchant and research vessels; cruise liners and ferries; fishing vessels; coast guard, military, and other government-operated ships; yachts; and a growing fleet of automated surface vessels. The present capabilities of ships to measure essential climate/ocean variables and the requirements from a broad community to address operational, commercial, and scientific needs are described. The authors provide a vision to expand observations needed from ships to understand and forecast the exchanges across the ocean-atmosphere interface. The vision addresses (1) recruiting vessels to improve both spatial and temporal sampling, (2) conducting multivariate sampling on ships, (3) raising technology readiness levels of automated shipboard sensors and ship-to-shore data communications, (4) advancing quality evaluation of observations, and (5) developing a unified data management approach for observations and metadata that meet the needs of a diverse user community. Recommendations are made focusing on integrating private and autonomous vessels into the observing system, investing in sensor and communications technology development, developing an integrated data management structure that includes all types of ships, and moving toward a quality evaluation process that will result in a subset of ships being defined as mobile reference ships that will support climate studies. We envision a future where commercial, research,

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Section: Leveraging Technological Advancesmentioning

confidence: 99%

Ship-Based Contributions to Global Ocean, Weather, and Climate Observing Systems

et al. 2019

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“…During the Atlantic hurricane season, for example, Surface Velocity Program (SVP), Surface Velocity Program Barometer (SVPB) and Autonomous Drifting Ocean Station drifters (Centurioni, 2010; see also Centurioni, 2018, for a complete description of the drifter technology) are often airdeployed in front of TCs that may impact the US mainland. New drifters capable of measuring the directional wave spectra of surface gravity waves, termed Directional Wave Spectra Drifters (Centurioni et al, 2016(Centurioni et al, , 2019 have also been deployed ahead of TCs. Successful deployments of various drifters have been carried out in the Atlantic Ocean during the following TCs: Fabian (2003) (2010).…”

Section: Surface Driftersmentioning

confidence: 99%

“…In addition, drifters that are part of the Global Drifter Program 6 array, often come close to TCs and provide valuable SST and SLP observations. In the 2013-2018 period a total of 116 SVP and SVPB drifters were located within 55 km of the tracks of systems that eventually developed into hurricanes (Centurioni et al, 2019). However, the effect of SLP drifter observation in improving TC track forecast has yet to be studied.…”

Section: Surface Driftersmentioning

confidence: 99%

“…Analysis of ocean observations from the largely climate-focused ocean observing system often provides valuable information on the mechanisms and processes associated with these extreme weather conditions. Ocean data in support of extreme weather events need to focus on resolving upper ocean features such as barrier layers, spatial variability of warm currents, mesoscale OHC changes, and surface waves (Centurioni et al, 2019) prior to and during the season in each basin where TCs occur, with distribution of data in real-time. However, the scientific and operational requirements of observing platforms, such as profiling floats (Roemmich et al, 2019), moorings (Foltz et al, 2019;Masumoto et al, 2019;Smith et al, 2019), and expendable probes , do not explicitly target these needs.…”

Section: Ocean Observations In Support Of Tropical Cyclones Studies Amentioning

confidence: 99%

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Ocean Observations in Support of Studies and Forecasts of Tropical and Extratropical Cyclones

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Over the past decade, measurements from the climate-oriented ocean observing system have been key to advancing the understanding of extreme weather events that originate and intensify over the ocean, such as tropical cyclones (TCs) and extratropical bomb cyclones (ECs). In order to foster further advancements to predict and better understand these extreme weather events, a need for a dedicated observing system component specifically to support studies and forecasts of TCs and ECs has been identified, but such a system has not yet been implemented. New technologies, pilot networks, targeted deployments of instruments, and state-of-the art coupled numerical models have enabled advances in research and forecast capabilities and illustrate a potential framework for future development. Here, applications and key results made possible by the different ocean observing efforts in support of studies and forecasts of TCs and ECs, as well as recent advances in observing technologies and strategies are reviewed. Then a vision and specific recommendations for the next decade are discussed.

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“…Multipurpose acoustic systems can provide ground-truth for ecosystem modeling and forecasting. Acoustic in situ rainfall and wind speed estimates can improve our observations of air-sea fluxes (Centurioni et al, 2019), particularly in sparely sampled regions such as the Southern Ocean (Swart et al, 2019) and polar regions (Smith et al, 2019) as well as improve our ability to monitor wind/current/wave interactions (Villas Bôas et al, 2019). The direct estimates of ocean state variables from acoustic tomography and acoustically located and navigated autonomous platforms operating in undersampled high-latitude regions will improve ocean state estimation (Heimbach et al, 2019).…”

Section: Discussionmentioning

confidence: 99%

Observing the Oceans Acoustically

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Global in situ Observations of Essential Climate and Ocean Variables at the Air–Sea Interface

Cited by 65 publications

References 147 publications

Ship-Based Contributions to Global Ocean, Weather, and Climate Observing Systems

Ship-Based Contributions to Global Ocean, Weather, and Climate Observing Systems

Ocean Observations in Support of Studies and Forecasts of Tropical and Extratropical Cyclones

Observing the Oceans Acoustically

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