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Journal of Operational Oceanography Volume 17, 2024 - Issue 2
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Articles

NOAA's operational satellite ocean heat content products

Eileen M. Maturia NOAA Center for Weather and Climate Prediction (NCWCP), NOAA/NESDIS/STAR/SOCD, College Park, MD, USACorrespondence[email protected]
View further author information
,
Lynn N. Shayb Department of Ocean Sciences, Upper Ocean Dynamics Laboratory, WERA Operations, Rosenstiel School of Marine and Atmospheric Science, University of Miami, Miami, FL, USAView further author information
,
David R. Donahuec NOAA Center for Weather and Climate Prediction (NCWCP), NOAA/NESDIS/OSPO, College Park, MD, USAView further author information
&
Deirdre A. Byrned NOAA Center for Weather and Climate Prediction (NCWCP), NOAA/NESDIS/SOCD, College Park, MD, USAView further author information
Pages 93-102 | Received 22 Apr 2022, Accepted 04 Nov 2022, Published online: 19 Dec 2022

References

  • Ali MM, Jagadeesh PSV, Jain S. 2007. Effects of eddies on Bay of Bengal cyclone intensity. EOS. 88(8):93–95.
  • Archer M, Shay LK, Johns WE. 2017. The Florida current: mean jet structure and variability from HF radar observations in a jet coordinate frame. J Geophys Res Oceans. 122:31 pp. doi:10.1002/2017JCO13286.
  • DeMaria M, Mainelli M, Shay LK, Knaff JA, Kaplan J. 2005. Further improvements to the statistical hurricane intensity prediction scheme (SHIPS). Wea Forecast. 20(4):531–543.
  • Goni G, et al. 2009. Applications of satellite-derived ocean measurements to tropical cyclone intensity forecasting. Oceanography. 22(3):190–197.
  • Goni GJ, Kamholz S, Garzoli SL, Olson DB. 1996. Dynamics of the Brazil/Malvinas confluence based on inverted echo sounders and altimetry. J Geophys Res. 95:22103–22120.
  • Halliwell GR, Shay LK, Brewster J, Teague WJ. 2011. Evaluation and sensitivity analysis to an ocean model response to hurricane Ivan. Mon Wea Rev. 139(3):921–945.
  • Hodur RM. 1997. The Naval Research Laboratory’s coupled ocean/atmosphere mesoscale prediction system (COAMPS). Mon Wea Rev. 125:1414. doi:10.1175/1520%2D0493(1997)125%3C1414%3ATNRLSC%3E2.0.CO%3B2.
  • Hong X, Chang SW, Raman S, Shay LK, Hodur R. 2000. The interaction of hurricane Opal (1995) and a warm core ring in the Gulf of Mexico. Mon Wea Rev. 128:1347–1365.
  • Jacob SD, Shay LK. 2003. The role of oceanic mesoscale features on the tropical cyclone–induced mixed layer response. J Phys Oceanogr. 33:649–676.
  • Jaimes B, Shay LK, Brewster JK. 2016. Observed air-sea interactions in tropical cyclone Isaac over loop current mesoscale eddy features. Dyn Atmos Ocean. 76:306–324.
  • Jaimes B, Shay LK, Uhlhorn EW. 2015. Observed enthalpy fluxes during the rapid intensity change of hurricane Earl. Mon Wea Rev. 131:111–131.
  • Kaplan, J., C.M. Rozoff, M. DeMaria, C.R. Sampson, J.P. Kossin, C.S. Velden, J.J. Cione, J.P. Dunion, J.A. Knaff, J.A. Zhang, J.F. Dostalek, J.D. Hawkins, T.F. Lee, and J.E. Solbrig, 2015. Evaluating environmental impacts on tropical cyclone rapid intensification predictability utilizing statistical models. Wea Fore., 30, 1374-1396.
  • Landsea CW, Franklin JL. 2013. Atlantic hurricane database uncertainty and presentation of a new database format. Mon Wea Rev. 141:3576–3592. doi:10.1175/MWR-D-12-00254.1.
  • Leipper DF, Volgenau D. 1972. Hurricane heat potential of the Gulf of Mexico. J Phys Oceanogr. 2:218–224.
  • Lin II, Black P, Price JF, Yang CY, Chen SS, Lien CC, and E CC, D’Asaro A. 2013. An ocean coupling potential intensity index for tropical cyclones. Geophys Res Lett. 40(9):1878–1882.
  • Lin I-I, Pun I-F, Wu C-C. 2008. Upper ocean thermal structure and the western north Pacific Category 5 typhoons. part I: ocean features and category 5 typhoons’ intensification. Mon Wea Rev. 136:3288–3306.
  • Lin I-I, Pun I-F, Wu C-C. 2009. Upper ocean thermal structure and the western north Pacific Category 5 typhoons. part II: dependence on translation speed. Mon Wea Rev. 137:3744–3757.
  • Mainelli M. 2000. On the role of the upper ocean in tropical cyclone intensity change. M.S. Thesis, Division of Meteorology and Physical Oceanography, RSMAS, University of Miami, Miami, FL, 73 pp.
  • Mainelli M, DeMaria M, Shay LK, Goni G. 2008. Application of oceanic heat content estimation to operational forecasting of recent Atlantic Category 5 hurricanes. Wea Forecasting. 23:3–16.
  • Mariano AJ, Brown OB. 1992. Efficient objective analysis of dynamically heterogeneous and nonstationary fields via the parameter matrix. Deep-Sea Res. 39:1255–1271.
  • Marks F, Shay LK. 1998. Landfalling tropical cyclones: forecast problems and associated research opportunities: Report of the 5th Prospectus Development Team to the U.S. Weather Research Program. Bull Amer Meteor Soc. 79:305–323.
  • Maturi EM, Harris A, Mittaz J, Sapper J, Wick G, Zhu X, Dash P, Koner P. 2017. A new-high resolution Sea surface temperature blended analysis. Bull Amer Meteor Assoc. 98:1015–1026. https://doi.org/10.1175/BAMS-D-15-00002.1.
  • McCaskill EC, Shay LK, Brewster JK, Meyers P. 2016. Creation of the systematically merged Pacific Ocean temperature and salinity (SPORTS) climatology for typhoon intensity forecasts. J Atmos Oceanogr Tech. 33:2259–2272.
  • Meyers PC, Shay LK, Brewster JK. 2014. Development and analysis of the systematically merged Atlantic regional temperature and salinity climatology for oceanic heat content estimates. J Atmos Oceanic Technol. 31:131–149.
  • Millero FJ, Poisson A. 1981. International one-atmosphere equation of state of seawater. Deep-Sea Res. 28(6):625–629.
  • Monterey GI, Levitus S. 1997. Climatological cycle of mixed layer depth in the world ocean. U.S. Gov. Printing Office, NOAA NESDIS, 5 pp.
  • Palmen E. 1948. On the formation and structure of tropical cyclones. Geophysika. 3:26–38.
  • Rogers R, Aberson S, Black M, Black P, Cione J, Dodge P, Dunion J, Gamache J, Kaplan J, Powell M, et al. 2006. The intensity forecasting experiment (IFEX), a NOAA multiple year field program for improving intensity forecasts. Bull Amer Met Soc. 87(11):1523–1537.
  • Rogers R, Aberson S, Cecil D, Doyle J, Morgerman J, Kimberlain T, Shay LK, Velden C. 2017. Re-Writing the tropical record books: the extraordinary intensification of Hurricane Patricia (2015). Bull Amer Met Soc. 98(10):2091–2112. http://journals.ametsoc.org/doi/pdf/10.1175BAMS-D-16-0039.1.
  • Rudzin J, Shay LK, Jaimes B, Brewster JK. 2017. Upper ocean observations in the eastern Caribbean Sea reveal barrier layer within a warm core eddy. J Geophys Res Oceans. 122:1057–1071. doi:10.1002/2016JC012339
  • Sandery PA, Brassington GB, Craig A, Pugh T. 2010. Impacts of ocean-atmosphere coupling on tropical cyclone intensity change and ocean prediction in the Australian region. Mon Wea Rev. 138:2074–2091.
  • Shay LK. 2010. Air-sea interactions in tropical cyclones (chapter 3). In: J. C. Chan, J. D. Kepert, editor. Global perspectives of tropical cyclones. 2nd Edition. London, UK: World Scientific Publishing Company: Earth System Science Publication Series; p. 93–132.
  • Shay LK, Brewster J, Maturi E, Meyers P, McCaskill C. 2015. Algorithm Theoretical Basis Document: Satellite-derived Oceanic Heat Content Product, V3.2, Satellite Products and Review Board, NOAA National Environmental Satellite Data Information Service, World Weather Research and Climate Center, College Park, MD. (https://www.ospo.noaa.gov/Products/ocean/assets/ATBD_OHC_NESDIS_V3.2.pdf).
  • Shay LK, Brewster JK. 2010. Eastern Pacific oceanic heat content estimation for hurricane intensity forecasting. Mon Wea Rev. 138:2110–2131.
  • Shay LK, Goni GJ, Black PG. 2000. Effects of a warm oceanic feature on Hurricane Opal. Mon Wea Rev. 125(5):1366–1383.
  • Shay LK, Jaimes B, Brewster JK, Meyers P, McCaskill C, Uhlhorn EW, Marks FD, Halliwell GR, Smedsted OM, Hogan P. 2011. Airborne surveys of the loop current complex from NOAA WP-3D during the deep water horizon oil spill. AGU geophysical monograph series. In: Y. Liu, D. Streets, R. W. Weisberg, editors. Monitoring and modeling the deep water horizon Oil spill: a record breaking enterprise. Vol. 195. p. 131–151.
  • Shay LK, Uhlhorn E. 2008. Loop current response to hurricanes isidore and lili. Mon Wea Rev. 137:3248–3274.
  • Teague WJ, Carron MJ, Hogan PJ. 1990. A comparison between the generalized digital environmental model and Levitus climatologies. J Geophys Res. 95:7167–7183.
  • Wada A, Usui N. 2007. Importance of tropical cyclone heat potential for tropical cyclone intensity and intensification in the western north Pacific. J Oceanogra. 63:427–447.
  • Wada A, Usui N, Sato K. 2012. Relationship of maximum tropical cyclone intensity to sea surface temperature and tropical cyclone heat potential in the North Pacific Ocean. J Geophys Res Atmos. 117:D11.
  • Wadler JB, Zhang JA, Rogers RF, Jaimes B, Shay LK. 2020. Multiscale observations of hurricane Michael (2018) during rapid intensification. Mon Wea Rev. (In Press).
  • Walker N, Leben R, Pilley C, Shannon M, Herndon D, Pun I-F, Lin I-I, Gentemann CL. 2014. Slow translation speed causes rapid collapse of northeast Pacific Hurricane Kenneth over cold core eddy. Geophys Res Lett. 41:7595–7601. doi:10.1002/2014GL061584
  • Wu C-C, Lee C-Y, Lin I-I. 2007. The effect of the ocean eddy on tropical cyclone intensity. J Atmos Sci. 64(10):3562–3578.
  • Yablonsky RM, Ginis I. 2013. Impact of a warm ocean eddy’s circulation on hurricane-induced sea surface cooling with implications for hurricane intensity. Mon Wea Rev. 141:997–1021.
  • Zheng Z-W, Ho C-R, Kuo N-J. 2008. Importance of pre-existing oceanic conditions to upper ocean response induced by super typhoon Hai-Tang. Geophys Res Lett. 35:L20603.

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