WEI Lixin, QIN Ting. Characteristics of cyclone climatology and variability in the Southern Ocean[J]. Acta Oceanologica Sinica, 2016, 35(7): 59-67. doi: 10.1007/s13131-016-0913-y
Citation: WEI Lixin, QIN Ting. Characteristics of cyclone climatology and variability in the Southern Ocean[J]. Acta Oceanologica Sinica, 2016, 35(7): 59-67. doi: 10.1007/s13131-016-0913-y

Characteristics of cyclone climatology and variability in the Southern Ocean

doi: 10.1007/s13131-016-0913-y
  • Received Date: 2015-08-11
  • Rev Recd Date: 2015-10-21
  • A new climatology of cyclones in the Southern Ocean is generated by applying an automated cyclone detection and tracking algorithm (developed by Hodges at the Reading University) for an improved and relatively highresolution European Centre for Medium-Range Weather Forecasts atmospheric reanalysis during 1979-2013. A validation shows that identified cyclone tracks are in good agreement with a available analyzed cyclone product. The climatological characteristics of the Southern Ocean cyclones are then analyzed, including track, number, density, intensity, deepening rate and explosive events. An analysis shows that the number of cyclones in the Southern Ocean has increased for 1979-2013, but only statistically significant in summer. Coincident with the circumpolar trough, a single high-density band of cyclones is observed in 55°-67°S, and cyclone density has generally increased in north of this band for 1979-2013, except summer. The intensity of up to 70% cyclones in the Southern Ocean is less than 980 hPa, and only a few cyclones with pressure less than 920 hPa are detected for 1979-2013. Further analysis shows that a high frequency of explosive cyclones is located in the band of 45°-55°S, and the Atlantic Ocean sector has much higher frequent occurrence of the explosive cyclones than that in the Pacific Ocean sector. Additionally, the relationship between cyclone activities in the Southern Ocean and the Southern Annular Mode is discussed.
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  • Akyildiz V. 1985. Systematic errors in the behaviour of cyclones in the ECMWF operational models. Tellus A, 37A(4):297-308
    Blackmon M L. 1976. A climatological spectral study of the 500 mb geopotential height of the Northern Hemisphere. Journal of the Atmospheric Sciences, 33(8):1607-1623
    Blender R, Fraedrich K, Lunkeit F. 1997. Identification of cyclone-track regimes in the North Atlantic. Quarterly Journal of the Royal Meteorological Society, 123(539):727-741
    Carleton A M. 1979. A synoptic climatology of satellite-observed ex-tratropical cyclone activity for the Southern Hemisphere:winter. Archiv für Meteorologie, Geophysik und Bioklimatolo-gie, Serie B, 27(4):265-279
    Fogt R L, Perlwitz J, Monaghan A J, et al. 2009. Historical SAM variab-ility. Part Ⅱ:Twentieth-century variability and trends from re-constructions, observations, and the IPCC AR4 models. Journal of Climate, 22(20):5346-5365
    Godfred-Spenning C R, Simmonds I. 1996. An analysis of antarctic sea-ice and extratropical cyclone associations. International Journal of Climatology, 16(12):1315-1332
    Gong Daiyi, Wang Shaowu. 1999. Definition of antarctic oscillation index. Geophys Res Lett, 26(4):459-462
    Gulev S K, Zolina O, Grigoriev S. 2001. Extratropical cyclone variabil-ity in the Northern Hemisphere winter from NCEP/NCAR reanalysis data. Climate Dynamics, 17(10):795-809
    Hodges K I. 1994. A general method for tracking analysis and its ap-plication to meteorological data. Monthly Weather Review, 122(11):2573-2586
    Hodges K I. 1996. Spherical nonparametric estimators applied to the UGAMP model integration for AMIP. Monthly Weather Review, 124(12):2914-2932
    Hoskins B J, Hodges K I. 2005. A new perspective on Southern Hemi-sphere storm tracks. Journal of Climate, 18(20):4108-4129
    Jones D A, Simmonds I. 1993. A climatology of Southern Hemisphere extratropical cyclones. Climate Dynamics, 9(3):131-145
    Karpechko A Y, Gillett N P, Marshall G J, et al. 2009. Climate impacts of the Southern annular mode simulated by the CMIP3 models. Journal of Climate, 22(13):3751-3768
    Kwok R, Comiso J C. 2002. Southern Ocean climate and sea ice an-omalies associated with the Southern Oscillation. Journal of Climate, 15(5):487-501
    Mendes D, Souza E P, Marengo J A, et al. 2010. Climatology of ex-tratropical cyclones over the South American-southern oceans sector. Theoretical and Applied Climatology, 100(3-4):239-250
    Murray R J, Simmonds I. 1991. A numerical scheme for tracking cyc-lone centres from digital data. Part I:Development and opera-tion of the scheme. Australian Meteorological Magazine, 39(3):156-166
    Nakamura H, Shimpo A. 2004. Seasonal variations in the Southern Hemisphere storm tracks and jet streams as revealed in a reanalysis dataset. Journal of Climate, 17(9):1828-1844
    Pezza A B, Durrant T, Simmonds I, et al. 2008. Southern Hemisphere synoptic behavior in extreme phases of SAM, ENSO, sea ice ex-tent, and southern Australia rainfall. Journal of Climate, 21(21):5566-5584
    Pezza A B, Rashid H A, Simmonds I. 2012. Climate links and recent extremes in Antarctic sea ice, high-latitude cyclones, southern annular mode and ENSO. Climate Dynamics, 38(1-2):57-73
    Rao V B, do Carmo A M C, Franchito S H. 2002. Seasonal variations in the Southern Hemisphere storm tracks and associated wave propagation. Journal of the Atmospheric Sciences, 59(6):1029-1040
    Sanders F. 1986. Explosive cyclogenesis in the west-central North At-lantic Ocean, 1981-84. Part I:Composite structure and mean behavior. Monthly weather review, 114(10):1781-1794
    Serreze M C. 1995. Climatological aspects of cyclone development and decay in the arctic. Atmosphere-Ocean, 33(1):1-23
    Sinclair M R. 1994. An objective cyclone climatology for the southern hemisphere. Monthly Weather Review, 122(10):2239-2256
    Sinclair M R. 1997. Objective identification of cyclones and their cir-culation, intensity and climatology. Weather and Forecasting, 12(3):595-612
    Streten N A, Troup A J. 1973. A synoptic climatology of satellite ob-served cloud vortices over the Southern Hemisphere. Quarterly Journal of the Royal Meteorological Society, 99(419):56-72
    Taljaard J J. 1967. Development, distribution and movement of cyc-lones and anticyclones in the Southern Hemisphere during the IGY. Journal of Applied Meteorology, 6(6):973-987
    Taljaard J J, van Loon H. 1962. Cyclogenesis, cyclones and anticyc-lones in the Southern Hemisphere during the winter and spring of 1957. Notos, 11:3-20
    Thompson D W J, Solomon S. 2002. Interpretation of recent South-ern Hemisphere climate change. Science, 296(5569):895-899
    Ulbrich U, Christoph M. 1999. A shift of the NAO and increasing storm track activity over Europe due to anthropogenic green-house gas forcing. Climate Dynamics, 15(7):551-559
    Uotila P, Vihma T, Pezza A B, et al. 2011. Relationships between ant-arctic cyclones and surface conditions as derived from high-resolution numerical weather prediction data. Journal of Geo-physical Research:Atmospheres, 116:D07109
    Wernli H, Schwierz C. 2006. Surface cyclones in the ERA-40 dataset (1958-2001):Part I.Novel identification method and global cli-matology. Journal of the Atmospheric Sciences, 63(10):2486-2507
    Woollings T, Gregory J M, Pinto J G, et al. 2012. Response of the North Atlantic storm track to climate change shaped by ocean-atmo-sphere coupling. Nature Geoscience, 5(5):313-317
    Xia Lan, Zahn M, Hodges K I, et al. 2012. A comparison of two identi-fication and tracking methods for polar lows. Tellus A, 64:17196
    Yoshida A, Asuma Y. 2004. Structures and environment of explos-ively developing extratropical cyclones in the northwestern Pa-cific region. Monthly Weather Review, 132(5):1121-1142
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