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1. Super Sites for Advancing Understanding of the Oceanic and Atmospheric Boundary Layers

Author

Clayson, Carol Anne, Centurioni, Luca, Cronin, Meghan F, Edson, James, Gille, Sarah, Muller-Karger, Frank, Parfitt, Rhys, Riihimaki, Laura D, Smith, Shawn R, Swart, Sebastiaan, Vandemark, Douglas, Bôas, Ana Beatriz Villas, Zappa, Christopher J, and Zhang, Dongxiao

Subjects
Life Below Water, Climate Action, Oceanography, Maritime Engineering, Marine Biology & Hydrobiology
Abstract

Abstract Air‐sea interactions are critical to large-scale weather and climate predictions because of the ocean's ability to absorb excess atmospheric heat and carbon and regulate exchanges of momentum, water vapor, and other greenhouse gases. These exchanges are controlled by molecular, turbulent, and wave-driven processes in the atmospheric and oceanic boundary layers. Improved understanding and representation of these processes in models are key for increasing Earth system prediction skill, particularly for subseasonal to decadal time scales. Our understanding and ability to model these processes within this coupled system is presently inadequate due in large part to a lack of data: contemporaneous long-term observations from the top of the marine atmospheric boundary layer (MABL) to the base of the oceanic mixing layer.We propose the concept of “Super Sites” to provide multi-year suites of measurements at specific locations to simultaneously characterize physical and biogeochemical processes within the coupled boundary layers at high spatial and temporal resolution. Measurements will be made from floating platforms, buoys, towers, and autonomous vehicles, utilizing both in-situ and remote sensors. The engineering challenges and level of coordination, integration, and interoperability required to develop these coupled ocean‐atmosphere Super Sites place them in an “Ocean Shot” class.

Published
2021

3. FluxSat: Measuring the Ocean-Atmosphere Turbulent Exchange of Heat and Moisture from Space

Author

Gentemann, Chelle L, Clayson, Carol Anne, Brown, Shannon, Lee, Tong, Parfitt, Rhys, Farrar, J Thomas, Bourassa, Mark, Minnett, Peter J, Seo, Hyodae, Gille, Sarah T, and Zlotnicki, Victor

Subjects
air-sea interactions, mesoscale, fluxes, Classical Physics, Physical Geography and Environmental Geoscience, Geomatic Engineering
Abstract

Recent results using wind and sea surface temperature data from satellites and high-resolution coupled models suggest that mesoscale ocean–atmosphere interactions affect the locations and evolution of storms and seasonal precipitation over continental regions such as the western US and Europe. The processes responsible for this coupling are difficult to verify due to the paucity of accurate air–sea turbulent heat and moisture flux data. These fluxes are currently derived by combining satellite measurements that are not coincident and have differing and relatively low spatial resolutions, introducing sampling errors that are largest in regions with high spatial and temporal variability. Observational errors related to sensor design also contribute to increased uncertainty. Leveraging recent advances in sensor technology, we here describe a satellite mission concept, FluxSat, that aims to simultaneously measure all variables necessary for accurate estimation of ocean–atmosphere turbulent heat and moisture fluxes and capture the effect of oceanic mesoscale forcing. Sensor design is expected to reduce observational errors of the latent and sensible heat fluxes by almost 50%. FluxSat will improve the accuracy of the fluxes at spatial scales critical to understanding the coupled ocean–atmosphere boundary layer system, providing measurements needed to improve weather forecasts and climate model simulations.

Published
2020

4. Air-Sea Fluxes With a Focus on Heat and Momentum

Author

Cronin, Meghan F, Gentemann, Chelle L, Edson, James, Ueki, Iwao, Bourassa, Mark, Brown, Shannon, Clayson, Carol Anne, Fairall, Chris W, Farrar, J Thomas, Gille, Sarah T, Gulev, Sergey, Josey, Simon A, Kato, Seiji, Katsumata, Masaki, Kent, Elizabeth, Krug, Marjolaine, Minnett, Peter J, Parfitt, Rhys, Pinker, Rachel T, Jr, Stackhouse Paul W, Swart, Sebastiaan, Tomita, Hiroyuki, Vandemark, Douglas, AWeller, Robert, Yoneyama, Kunio, Yu, Lisan, and Zhang, Dongxiao

Subjects
air-sea heat flux, latent heat flux, surface radiation, ocean wind stress, autonomous surface vehicle, OceanSITES, ICOADS, satellite-based ocean monitoring system, Oceanography, Ecology
Published
2019

5. A New Paradigm for Observing and Modeling of Air-Sea Interactions to Advance Earth System Prediction

Author

Clayson, Carol Anne, primary, Demott, Charlotte, additional, de Szoeke, S, additional, Chang, Ping, additional, Foltz, Gregory, additional, Krishnamurthy, Raghavendra, additional, Lee, Tong, additional, Molod, Andrea, additional, Ortiz-Suslow, David, additional, Pullen, Julie, additional, Richter, David, additional, Seo, Hyodae, additional, Taylor, Patrick, additional, Thompson, Elizabeth, additional, Boas, Bia, additional, Zappa, Chris, additional, and Zuidema, Paquita, additional

Published
2023
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8. Misaligned Wind‐Waves Behind Atmospheric Cold Fronts.

Author

Sauvage, César, Seo, Hyodae, Barr, Benjamin W., Edson, James B., and Clayson, Carol Anne

Subjects
COLD waves (Meteorology), DRAG coefficient, FRICTION velocity, CYCLONES, EDDY flux, FRONTS (Meteorology)
Abstract

Atmospheric fronts embedded in extratropical cyclones are high‐impact weather phenomena, contributing significantly to mid‐latitude winter precipitation. The three vital characteristics of the atmospheric fronts, high wind speeds, abrupt change in wind direction, and rapid translation, force the induced surface waves to be misaligned with winds exclusively behind the cold fronts. The effects of the misaligned waves under atmospheric cold fronts on air‐sea fluxes remain undocumented. Using the multi‐year in situ near‐surface observations and direct covariance flux measurements from the Pioneer Array off the coast of New England, we find that the majority of the passing cold fronts generate misaligned waves behind the cold front. Once generated, the waves remain misaligned, on average, for about 8 hr. The parameterized effect of misaligned waves in a fully coupled model significantly increases the roughness length (185%), drag coefficient (19%), and air‐sea momentum flux (11%). The increased surface drag reduces the wind speeds in the surface layer. The upward turbulent heat flux is weakly decreased by the misaligned waves because of the decrease in temperature and humidity scaling parameters being greater than the increase in friction velocity. The misaligned wave effect is not accurately represented in a commonly used wave‐based bulk flux algorithm. Yet, considering this effect in the current formulation improves the overall accuracy of parameterized momentum flux estimates. The results imply that better representing a directional wind‐wave coupling in the bulk formula of the numerical models may help improve the air‐sea interaction simulations under the passing atmospheric fronts in the mid‐latitudes. Plain Language Summary: Atmospheric fronts are recurrent weather phenomena in mid‐latitudes, significantly contributing to winter precipitation. They are characterized by high wind speeds, abrupt changes in wind direction, and rapid translation. The passage of the fronts over the ocean can generate strongly misaligned waves with the local wind, particularly behind the cold fronts. The effects of these misaligned waves under atmospheric cold fronts on air‐sea fluxes remain undocumented. Using the long‐term surface observations from the Pioneer Array off the coast of New England, we find that the majority of the passing atmospheric fronts generate misaligned waves behind the cold front, which can remain misaligned, on average, for about 8 hr. By increasing the ocean roughness length in case of misaligned waves in coupled numerical experiments, a significant increase in momentum flux is found, which reduces the surface wind speeds. The misaligned wave effect is not accurately represented in a commonly used wave‐based air‐sea flux algorithm. Yet, by considering this effect in the current formulation, the overall accuracy of parameterized momentum flux estimates is improved. A better representation of the air‐sea interaction in numerical models is crucial for a better understanding of regional and global climate. Key Points: Passing atmospheric cold fronts generate a large area of growing wind‐waves that are misaligned with local windParameterized effect of misaligned waves increases the roughness length, drag and enthalpy coefficients, and wind stressRepresentation of the misaligned wave effect in the bulk formula improves the momentum flux estimates [ABSTRACT FROM AUTHOR]

Published
2024
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11. High-Latitude Ocean and Sea Ice Surface Fluxes: Challenges for Climate Research

Author

Bourassa, Mark A, Gille, Sarah T, Bitz, Cecilia, Carlson, David, Cerovecki, Ivana, Clayson, Carol Anne, Cronin, Meghan F, Drennan, Will M, Fairall, Chris W, Hoffman, Ross N, Magnusdottir, Gudrun, Pinker, Rachel T, Renfrew, Ian A, Serreze, Mark, Speer, Kevin, Talley, Lynne D, and Wick, Gary A

Subjects
turbulent heat fluxes, North-Atlantic Ocean, southern-ocean, radiative fluxes, probability-distribution, sampling errors, global ocean, wind stress, bulk parameterization, shortwave irradiance
Abstract

Polar regions have great sensitivity to climate forcing; however, understanding of the physical processes coupling the atmosphere and ocean in these regions is relatively poor. Improving our knowledge of high-latitude surface fluxes will require close collaboration among meteorologists, oceanographers, ice physicists, and climatologists, and between observationalists and modelers, as well as new combinations of in situ measurements and satellite remote sensing. This article describes the deficiencies in our current state of knowledge about air–sea surface fluxes in high latitudes, the sensitivity of various high-latitude processes to changes in surface fluxes, and the scientific requirements for surface fluxes at high latitudes. We inventory the reasons, both logistical and physical, why existing flux products do not meet these requirements. Capturing an annual cycle in fluxes requires that instruments function through long periods of cold polar darkness, often far from support services, in situations subject to icing and extreme wave conditions. Furthermore, frequent cloud cover at high latitudes restricts the availability of surface and atmospheric data from visible and infrared (IR) wavelength satellite sensors. Recommendations are made for improving high-latitude fluxes, including 1) acquiring more in situ observations, 2) developing improved satellite-flux-observing capabilities, 3) making observations and flux products more accessible, and 4) encouraging flux intercomparisons.

Published
2013

12. Interactions Strategy (OASIS) for a Predicted Ocean, a satellite event for the UN Decade of Ocean Science for Sustainable Development - Predicted Ocean Laboratory

Author

Cronin, Meghan, primary, Marandino, Christa, additional, Schwartz, Sheri, additional, Chory, Maggie, additional, Browne, Phil, additional, Subramanian, Aneesh, additional, Joubert, Warren, additional, Arbic, Brian, additional, Bourassa, Mark, additional, Plessis, Marcel du, additional, Swart, Sebastiaan, additional, Schuster, Ute, additional, Gentemann, Chelle, additional, Sun, Riu, additional, Reeves, Jack, additional, Hormann, Verena, additional, Alves, Oscar, additional, February, Faith, additional, Mongwe, Precious, additional, Zippel, Seth, additional, Menezes, Viviane, additional, Blair, Daneisha, additional, Deppenmeier, Anna-Lena, additional, Martin, Paige, additional, Palter, Jaime, additional, Venkatesen, R-, additional, Gray, Alison, additional, Clayson, Carol Anne, additional, and Shutler, Jamie D., additional

Published
2021
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14. Students as Simulation Designers and Developers--Using Computer Simulations for Teaching Boundary Layer Processes.

Author

Johnson, Tristan E. and Clayson, Carol Anne

Abstract

As technology developments seek to improve learning, researchers, developers, and educators seek to understand how technological properties impact performance. This paper delineates how a traditional science course is enhanced through the use of simulation projects directed by the students themselves as a means to increase their level of knowledge comprehension and application. To facilitate the learning of geophysical fluid dynamics, faculty at a midwestern university infused the use of simulations to help students better understand the theory and application of this domain. Three areas were targeted for class restructuring: (1) students' physical understanding of the complicated mathematical structure discussed in class; (2) learning the techniques necessary for turning new physical understanding into concrete results; and (3) ability to use their simulations to drive understanding of the physical system being modeled. In this approach, students are divided into groups based on their pre-existing computer skills and areas of interest. The course lectures are integrated with each step of the simulation. At the end of the simulation experiment, a class discussion analyzes the physical nature of the differing systems and the strengths/weaknesses of the simulations. The final step allows each group to add an additional physical process. (AEF)

Published
1998

26. Butterfly: a satellite mission to reveal the oceans' impact on our weather and climate

Author

Gentemann, Chelle L., Clayson, Carol Anne, Lee, Tong, Brown, Shannon, Subramanian, Aneesh, Bourassa, Mark, Lombardo, Kelly, Parfitt, Rhys, Seo, Hyodae, Gille, Sarah, Farrar, Tom, Argrow, Brian, Whitaker, Jeff, Kleist, Daryl, May, Jackie, Browne, Philip, Harris, Chris, Kachi, Misako, Tomita, Hiroyuki, and Bentamy, Abderrahim

Subjects
open science, nasa, proposal, air-sea, fluxes, remote sensing
Abstract

Butterfly will provide data to advance both weather and climate prediction. This mission is driven by science. Recent research results reveal how small spatial-scale air-sea turbulent heat and moisture fluxes impact regional and global weather, linking, A proposal submitted to NASA's Earth Venture Mission 3 competition.

Published
2021
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29. Assessing Air-Sea Interaction in the Evolving NASA GEOS Model

Author

Clayson, Carol Anne and Roberts, J. Brent

Subjects
Meteorology And Climatology
Abstract

In order to understand how the climate responds to variations in forcing, one necessary component is to understand the full distribution of variability of exchanges of heat and moisture between the atmosphere and ocean. Surface heat and moisture fluxes are critical to the generation and decay of many coupled air-sea phenomena. These mechanisms operate across a number of scales and contain contributions from interactions between the anomalous (i.e. non-mean), often extreme-valued, flux components. Satellite-derived estimates of the surface turbulent and radiative heat fluxes provide an opportunity to assess results from modeling systems. Evaluation of only time mean and variability statistics, however only provides limited traceability to processes controlling what are often regime-dependent errors. This work will present an approach to evaluate the representation of the turbulent fluxes at the air-sea interface in the current and evolving Goddard Earth Observing System (GEOS) model. A temperature and moisture vertical profile-based clustering technique is used to identify robust weather regimes, and subsequently intercompare the turbulent fluxes and near-surface parameters within these regimes in both satellite estimates and GEOS-driven data sets. Both model reanalysis (MERRA) and seasonal-to-interannual coupled GEOS model simulations will be evaluated. Particular emphasis is placed on understanding the distribution of the fluxes including extremes, and the representation of near-surface forcing variables directly related to their estimation. Results from these analyses will help identify the existence and source of regime-dependent biases in the GEOS model ocean surface turbulent fluxes. The use of the temperature and moisture profiles for weather-state clustering will be highlighted for its potential broad application to 3-D output typical of model simulations.

Published
2015

30. Final Report of TPOS 2020

Author

Kessler, William S, Cravatte, Sophie, Strutton, Peter G, Sutton, Adrienne J, Kumar, Arun, Takaya, Yuhei, Hendon, Harry, O'brien, Kevin, Smith, Neville, Wijffels, Susan E, Sprintall, Janet, Wittenberg, Andrew T, Ando, Kentaro, Hill, Katherine, Large, William, Legler, David, Tedesco, Kathy, Lucas, Sandy, Duteil, Olaf, Eddebbar, Yassir A, Dewitte, Boris, Serra, Yolande, Penny, Stephen G, Connell, Kenneth, Roemmich, Dean, Lee, Tong, Clayson, Carol Anne, Mcgregor, Shayne, Cronin, Meghan F, J Thomas Farrar, Masich, Jessica, Grissom, Karen, Charpentier, Etienne, Stienbarger, Cheyenne, Croll, Brittany, Zhou, Feng, Dake Chen, Chai, Fei, Xiaohui Xie, Weidong Yu, Ueki, Iwao, Fukuda, Tatsuya, Makito Yokota, Ishihara, Yasuhisa, Purkey, Sarah, Riser, Stephen, Edson, James, Katsumata, Masaki, Nagano, Akira, Yoneyama, Kunio, Dongxiao Zhang, and Subramanian, Aneesh

Published
2021
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36. Thermodynamics in the Suppressed Phase of the Madden-Julian Oscillation Using a Multiplatform Strategy

Author

Roberts, J. Brent, Robertson, Franklin R, Clayson, Carol Anne, and Taylor, Patrick

Subjects
Fluid Mechanics And Thermodynamics, Meteorology And Climatology
Abstract

The Madden-Julian Oscillation (MJO) represents a prominent mode of intraseasonal tropical variability. It is manifest by coherent large-scale changes in atmospheric circulation, convection, and thermodynamic processes. Preconditioning of the environment prior to the active phase of the MJO has been noted, but the balance of theorized mechanisms to accomplish this process remains unresolved. Further, there is a lack of consensus on the means by which primary initiation of an MJO event occurs. Observational and modeling efforts have recently been undertaken to advance our understanding of the physical underpinnings governing MJO development. However these intensive studies are often limited in space and/or time and are potentially subject to model deficiencies. Satellite observations, especially those providing vertical resolution of temperature and moisture, provide an opportunity to expand our knowledge of processes critical to MJO initiation and preconditioning. This work will provide an analysis of suppressed phase thermodynamics with an emphasis on the use of a complementary suite of satellite observations including AIRS/AMSU-A profiles, CERES radiative fluxes, and cloud properties observed by MODIS. Emphasis of this work will regard the distribution of cloud regimes, their radiative-convective effects, and their relationship to moist static energy during the recharge and suppressed stages of MJO initiation and eastward propagation. The analyses will make use of cloud regimes from MODIS observations to provide a compositing technique that enables the identification of systematic connections between different cloud regimes and the larger scale environment. Within these cloud regimes, the relationship between the associated cloud-radiative effects observed by CERES, vertically-resolved and vertically-integrated thermodynamics using AIRS/AMSU-A observations, and atmospheric boundary layer fluxes will be demonstrated.

Published
2014

39. Effects of spatial resolution and temporal offset of air-sea boundary-layer variables on turbulent heat flux estimates

Author

Lee, Tong, primary, Centemann, Chelle, additional, Clayson, Carol Anne, additional, Bourassa, Mark, additional, Brown, Shannon, additional, Farrar, Tom, additional, Lombardo, Kelly, additional, Gille, Sarah, additional, Parfitt, Rhys, additional, Seo, Hyodae, additional, Subramanian, Aneesh, additional, and Zlotnicki, Victor, additional

Published
2021
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40. Tropical Ocean Surface Energy Balance Variability: Linking Weather to Climate Scales

Author

Roberts, J. Brent and Clayson, Carol Anne

Subjects
Meteorology And Climatology
Abstract

Radiative and turbulent surface exchanges of heat and moisture across the atmosphere-ocean interface are fundamental components of the Earth s energy and water balance. Characterizing the spatiotemporal variability of these exchanges of heat and moisture is critical to understanding the global water and energy cycle variations, quantifying atmosphere-ocean feedbacks, and improving model predictability. These fluxes are integral components to tropical ocean-atmosphere variability; they can drive ocean mixed layer variations and modify the atmospheric boundary layer properties including moist static stability, thereby influencing larger-scale tropical dynamics. Non-parametric cluster-based classification of atmospheric and ocean surface properties has shown an ability to identify coherent weather regimes, each typically associated with similar properties and processes. Using satellite-based observational radiative and turbulent energy flux products, this study investigates the relationship between these weather states and surface energy processes within the context of tropical climate variability. Investigations of surface energy variations accompanying intraseasonal and interannual tropical variability often use composite-based analyses of the mean quantities of interest. Here, a similar compositing technique is employed, but the focus is on the distribution of the heat and moisture fluxes within their weather regimes. Are the observed changes in surface energy components dominated by changes in the frequency of the weather regimes or through changes in the associated fluxes within those regimes? It is this question that the presented work intends to address. The distribution of the surface heat and moisture fluxes is evaluated for both normal and non-normal states. By examining both phases of the climatic oscillations, the symmetry of energy and water cycle responses are considered.

Published
2013

41. The SeaFlux Turbulent Flux Dataset Version 1.0 Documentation

Author

Clayson, Carol Anne, Roberts, J. Brent, and Bogdanoff, Alec S

Subjects
Computer Programming And Software
Abstract

Under the auspices of the World Climate Research Programme (WCRP) Global Energy and Water cycle EXperiment (GEWEX) Data and Assessment Panel (GDAP), the SeaFlux Project was created to investigate producing a high-resolution satellite-based dataset of surface turbulent fluxes over the global oceans. The most current release of the SeaFlux product is Version 1.0; this represents the initial release of turbulent surface heat fluxes, associated near-surface variables including a diurnally varying sea surface temperature.

Published
2012

42. Characterization of Turbulent Latent and Sensible Heat Flux Exchange Between the Atmosphere and Ocean in MERRA

Author

Robert, J. Brent, Robertson, Franklin R, Clayson, Carol Anne, and Bosilovich, Michael G

Subjects
Meteorology And Climatology
Abstract

Turbulent fluxes of heat and moisture across the atmosphere-ocean interface are fundamental components of the Earth's energy and water balance. Characterizing both the spatiotemporal variability and the fidelity of these exchanges of heat and moisture is critical to understanding the global water and energy cycle variations, quantifying atmosphere-ocean feedbacks, and improving model predictability. This study examines the veracity of the recently completed NASA Modern-Era Retrospective analysis for Research and Applications (MERRA) product with respect to its representation of the surface turbulent heat fluxes. A validation of MERRA turbulent heat fluxes and near-surface bulk variables at local, high-resolution space and time scales is achieved by making comparisons to a large suite of direct observations. Both in situ and satellite-observed gridded surface heat flux estimates are employed to investigate the spatial and temporal variability of the surface fluxes with respect to their annual mean climatologies, their seasonal covariability of near-surface bulk parameters, and their representation of extremes. The impact of data assimilation on the near-surface parameters is assessed through evaluation of incremental analysis update tendencies produced by the assimilation procedure. It is found that MERRA turbulent surface heat fluxes are relatively accurate for typical conditions but have systematically weak vertical gradients in moisture and temperature and have a weaker covariability between the near-surface gradients and wind speed than found in observations. This results in an underestimate of the surface latent and sensible heat fluxes over the western boundary current and storm track regions. The assimilation of observations mostly acts to bring MERRA closer to observational products by increasing moisture and temperature near the surface and decreasing the near-surface wind speeds. The major patterns of spatial and temporal variability of the turbulent heat fluxes produced by MERRA compare favorably to observationally based estimates. However, MERRA is distinct in terms of amplitude. These results suggest that MERRA is likely to be a valuable resource for a number of research applications though, as with all turbulent flux estimates, systematic issues should be taken into account

Published
2012

43. Characterization of Turbulent Latent and Sensible Heat Flux Exchange Between the Atmosphere and Ocean in MERRA

Author

Roberts, J. Brent, Robertson, Franklin R, Clayson, Carol Anne, and Bosilovich, Michael G

Subjects
Meteorology And Climatology
Abstract

Turbulent fluxes of heat and moisture across the atmosphere-ocean interface are fundamental components of the Earth s energy and water balance. Characterizing both the spatiotemporal variability and the fidelity of these exchanges of heat and moisture is critical to understanding the global water and energy cycle variations, quantifying atmosphere-ocean feedbacks, and improving model predictability. This study examines the veracity of the recently completed NASA Modern-Era Retrospective analysis for Research and Applications (MERRA) product with respect to its representation of the surface turbulent heat fluxes. A validation of MERRA turbulent heat fluxes and near-surface bulk variables at local, high-resolution space and time scales is achieved by making comparisons to a large suite of direct observations. Both in situ and satellite-observed gridded surface heat flux estimates are employed to investigate the spatial and temporal variability of the surface fluxes with respect to their annual mean climatologies, their seasonal covariability of near-surface bulk parameters, and their representation of extremes. The impact of data assimilation on the near-surface parameters is assessed through evaluation of incremental analysis update tendencies produced by the assimilation procedure. It is found that MERRA turbulent surface heat fluxes are relatively accurate for typical conditions but have systematically weak vertical gradients in moisture and temperature and have a weaker covariability between the near-surface gradients and wind speed than found in observations. This results in an underestimate of the surface latent and sensible heat fluxes over the western boundary current and storm track regions. The assimilation of observations mostly acts to bring MERRA closer to observational products by increasing moisture and temperature near the surface and decreasing the near-surface wind speeds. The major patterns of spatial and temporal variability of the turbulent heat fluxes produced by MERRA compare favorably to observationally based estimates. However, MERRA is distinct in terms of amplitude. These results suggest that MERRA is likely to be a valuable resource for a number of research applications though, as with all turbulent flux estimates, systematic issues should be taken into account.

Published
2012

44. Application of Artificial Neural Networks to the Development of Improved Multi-Sensor Retrievals of Near-Surface Air Temperature and Humidity Over Ocean

Author

Roberts, J. Brent, Robertson, Franklin R, and Clayson, Carol Anne

Subjects
Oceanography
Abstract

Improved estimates of near-surface air temperature and air humidity are critical to the development of more accurate turbulent surface heat fluxes over the ocean. Recent progress in retrieving these parameters has been made through the application of artificial neural networks (ANN) and the use of multi-sensor passive microwave observations. Details are provided on the development of an improved retrieval algorithm that applies the nonlinear statistical ANN methodology to a set of observations from the Advanced Microwave Scanning Radiometer (AMSR-E) and the Advanced Microwave Sounding Unit (AMSU-A) that are currently available from the NASA AQUA satellite platform. Statistical inversion techniques require an adequate training dataset to properly capture embedded physical relationships. The development of multiple training datasets containing only in-situ observations, only synthetic observations produced using the Community Radiative Transfer Model (CRTM), or a mixture of each is discussed. An intercomparison of results using each training dataset is provided to highlight the relative advantages and disadvantages of each methodology. Particular emphasis will be placed on the development of retrievals in cloudy versus clear-sky conditions. Near-surface air temperature and humidity retrievals using the multi-sensor ANN algorithms are compared to previous linear and non-linear retrieval schemes.

Published
2012

45. Development of an AQUA Based Near-Surface Parameter Retrieval

Author

Roberts, Brent and Clayson, Carol Anne

Subjects
Meteorology And Climatology
Abstract

The production of a satellite based turbulent surface flux product relies critically upon the near-surface input parameters. Development of retrieval algorithms for the necessary near-surface variables of wind speed, specific humidity, air temperature, and sea surface temperature has proceeded relatively independent of each another until recently. The use of a neural network approach using Special Sensor Microwave/Imager (SSM/I) data in conjunction with a first guess sea surface temperature has led to successful retrieval of all parameters simultaneously. However, SSM/I frequencies lack inherent sensitivity to the sea surface temperature (SST). Recent studies have found improved air temperature and humidity retrievals can be obtained via inclusion of microwave sounding channels weighted in the lower troposphere. The inclusion of SSM/I-like frequencies as well as SST-sensitive microwave channels on AMSR-E along with AMSU-A sounding data onboard the AQUA platform provides an unique opportunity. That is the ability to provide near-simultaneous (in space and time) measurements allowing the retrieval of all the near-surface variables, including SST. This study shows results of a new algorithm designed to take advantage of the unique sampling ability of AQUA based sensors. Results from a neural network based methodology will be shown as compared to in-situ based observations of near-surface variables. Implications for creation of an AQUA based turbulent surface product are also discussed.

Published
2010

46. Second Report of TPOS 2020

Author

Kessler, William S., Wijffels, Susan, Cravatte, Sophie, Smith, Neville, Fujii, Yosuke, Large, William G., Takaya, Yuhei, Hendon, Harry, Penny, Stephen G., Sutton, Adrienne J., Strutton, Peter, Feely, Richard, Kouketsu, Shinya, Yasunaka, Sayaka, Serra, Yolande, Dewitte, Boris, Takahashi, Ken, Xue, Yan, Montes, Ivonne, Clayson, Carol Anne, Cronin, Meghan F., Farrar, Tom, Lee, Tong, Mcgregor, Shayne, Xiangzhou Song, Sprintall, Janet, Wittenberg, Andrew T., Weidong Yu, Ando, Kentaro, Gasparin, Florent, Roemmich, Dean, Masich, Jessica, O'Brien, Kevin, Legler, David, Ueki, Iwao, E. Robert Kursinski, Hill, Katherine, Cobb, Kim M., O'Neill, Larry, Upchurch, Lucia, and Brunner, Shelby

Published
2019
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47. Preface

Author

Kantha, Lakshmi H., primary and Clayson, Carol Anne, additional

Published
2000
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48. Air-sea fluxes with a focus on heat and momentum

Author

Cronin, Meghan F., Gentemann, Chelle L., Edson, James, Ueki, Iwao, Bourassa, Mark, Brown, Shannon, Clayson, Carol Anne, Fairall, Chris W., Farrar, J. Thomas, Gille, Sarah T., Gulev, Sergey, Josey, Simon A., Kato, Seiji, Katsumata, Masaki, Kent, Elizabeth, Krug, Marjolaine, Minnett, Peter J., Parfitt, Rhys, Pinker, Rachel T., Stackhouse, Paul W., Swart, Sebastiaan, Tomita, Hiroyuki, Vandemark, Douglas, Weller, A. Robert, Yoneyama, Kunio, Yu, Lisan, Zhang, Dongxiao, Cronin, Meghan F., Gentemann, Chelle L., Edson, James, Ueki, Iwao, Bourassa, Mark, Brown, Shannon, Clayson, Carol Anne, Fairall, Chris W., Farrar, J. Thomas, Gille, Sarah T., Gulev, Sergey, Josey, Simon A., Kato, Seiji, Katsumata, Masaki, Kent, Elizabeth, Krug, Marjolaine, Minnett, Peter J., Parfitt, Rhys, Pinker, Rachel T., Stackhouse, Paul W., Swart, Sebastiaan, Tomita, Hiroyuki, Vandemark, Douglas, Weller, A. Robert, Yoneyama, Kunio, Yu, Lisan, and Zhang, Dongxiao

Abstract

Turbulent and radiative exchanges of heat between the ocean and atmosphere (hereafter heat fluxes), ocean surface wind stress, and state variables used to estimate them, are Essential Ocean Variables (EOVs) and Essential Climate Variables (ECVs) influencing weather and climate. This paper describes an observational strategy for producing 3-hourly, 25-km (and an aspirational goal of hourly at 10-km) heat flux and wind stress fields over the global, ice-free ocean with breakthrough 1-day random uncertainty of 15 W m–2 and a bias of less than 5 W m–2. At present this accuracy target is met only for OceanSITES reference station moorings and research vessels (RVs) that follow best practices. To meet these targets globally, in the next decade, satellite-based observations must be optimized for boundary layer measurements of air temperature, humidity, sea surface temperature, and ocean wind stress. In order to tune and validate these satellite measurements, a complementary global in situ flux array, built around an expanded OceanSITES network of time series reference station moorings, is also needed. The array would include 500–1000 measurement platforms, including autonomous surface vehicles, moored and drifting buoys, RVs, the existing OceanSITES network of 22 flux sites, and new OceanSITES expanded in 19 key regions. This array would be globally distributed, with 1–3 measurement platforms in each nominal 10° by 10° box. These improved moisture and temperature profiles and surface data, if assimilated into Numerical Weather Prediction (NWP) models, would lead to better representation of cloud formation processes, improving state variables and surface radiative and turbulent fluxes from these models. The in situ flux array provides globally distributed measurements and metrics for satellite algorithm development, product validation, and for improving satellite-based, NWP and blended flux products. In addition, some of these flux platforms will also measure direct turbulen

Published
2019

50. Air-Sea Fluxes With a Focus on Heat and Momentum

Author

Cronin, Meghan F., primary, Gentemann, Chelle L., additional, Edson, James, additional, Ueki, Iwao, additional, Bourassa, Mark, additional, Brown, Shannon, additional, Clayson, Carol Anne, additional, Fairall, Chris W., additional, Farrar, J. Thomas, additional, Gille, Sarah T., additional, Gulev, Sergey, additional, Josey, Simon A., additional, Kato, Seiji, additional, Katsumata, Masaki, additional, Kent, Elizabeth, additional, Krug, Marjolaine, additional, Minnett, Peter J., additional, Parfitt, Rhys, additional, Pinker, Rachel T., additional, Stackhouse, Paul W., additional, Swart, Sebastiaan, additional, Tomita, Hiroyuki, additional, Vandemark, Douglas, additional, Weller, A. Robert, additional, Yoneyama, Kunio, additional, Yu, Lisan, additional, and Zhang, Dongxiao, additional

Published
2019
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