Abstract
The statistical relationships between various components of the subpolar North Atlantic air-sea-ice climate system are reexamined in order to investigate potential processes involved in interdecadal climate variability. It is found that sea surface temperature anomalies concentrated in the Labrador Sea region have a strong impact upon atmospheric sea level pressure anomalies over Greenland, which in turn influence the transport of freshwater and ice anomalies out of the Arctic Ocean, via Fram Strait. These freshwater and ice anomalies are advected around the subpolar gyre into the Labrador Sea affecting convection and the formation of Labrador Sea Water. This has an impact upon the transport of North Atlantic Current water into the subpolar gyre and thus, also upon sea surface temperatures in the region. An interdecadal negative feedback loop is therefore proposed as an internal source of climate variability within the subpolar North Atlantic. Through the lags associated with the correlations between different climatic components, observed horizontal advection time scales, and the use of Boolean delay equation models, the time scale for one cycle of this feedback loop is determined to have a period of about 21 years.
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References
Aagaard K, Carmack EC (1989) The role of sea ice and other freshwater in the Arctic circulation. J Geophys Res 94:14485–14498
Baumgartner A, Reichel E (1975) The world water balance. Elsevier, New York, 179 pp
Bjerknes J (1964) Atlantic air-sea interaction. Adv Geophys 10:1–82
Darby MS, Mysak LA (1993) A Boolean delay equation model of an interdecadal Arctic climate cycle. Clim Dyn 8:241–246
Delworth T, Manabe S, Stouffer RJ (1993) Interdecadal variations in the thermohaline circulation in a coupled oceanatmosphere model. J Clim 6:1993–2011
Deser C, Blackmon ML (1993) Surface climate variations over the North Atlantic ocean during winter: 1900–1989. J Clim 6:1743–1753
Dickson RR (1994) The local, regional, and global significance of exchanges through the Denmark Strait and Irminger Sea. In: Natural climate Yariability on decade to century time scales. National Academy Press, Washington DC (in press)
Dickson R, Lee A (1969) Atmospheric and marine climate fluctuations in the North Atlantic region. Prog Oceanogr 5:55–65
Dickson RR, Lamb HH, Malmberg SA, Colebrook JM (1975) Climatic reversal in the northern North Atlantic. Nature 256:479–483
Dickson RR, Meincke J, Malmberg S-A, Lee AJ (1988) The “great salinity anomaly” in the northern North Atlantic 1968–1982. Prog Oceanogr 20:103–151
Greatbatch RJ, Xu J (1993) On the transport of volume and heat through sections across the North Atlantic: climatology and the pentads 1955–59, 1970–74. J Geophys Res 98:10125–10143
Greatbatch RJ, Zhang S (1995) An interdecadal oscillation in an idealized ocean model forced by constant heat flux. J Clim (in press)
Greatbatch RJ, Fanning AF, Goulding AD, Levitus S (1991) A diagnosis of interpentadal circulation changes in the North Atlantic. J Geophys Res 96:22009–22023
Häkkinen S (1993) An Arctic source for the great salinity anomaly: a simulation of the Arctic ice-ocean system for 1955–1975. J Geophys Res 98:16397–16410
Hibler WD III, Johnsen SJ (1979) The 20-year cycle in Greenland ice core records. Nature 280:481–483
Kushnir Y (1994) Interdecadal variations in North Atlantic sea surface temperature and associated atmospheric conditions. J Clim 7:141–157
Lazier JRN (1980) Oceanographic conditions at Ocean Weather Ship Bravo, 1964–1974. Atmos-Ocean 18:227–238
Lehman SJ, Keigwin LD (1992) Deep circulation revisited. Nature 358:197–198
Levitus S (1989a) Interpentadal variability of temperature and salinity at intermediate depths of the North Atlantic ocean, 1970–1974 versus 1955–1959. J Geophys Res 94:6091–6131
Levitus S (1989b) Interpentadal variability of salinity in the upper 150 m of the North Atlantic ocean, 1970–1974 versus 1955–1959. J Geophys Res 94: 9679–9685
Levitus S (1989c) Interpentadal variability of temperature and salinity in the deep North Atlantic, 1970–1974 versus 1955–1959. J Geophys Res 94:16125–16131
Levitus S (1990) Interpentadal variability of steric sea level and geopotential thickness of the North Atlantic ocean, 1970–1974 versus 1955–1959. J Geophys Res 95: 5233–5238
Levitus S, Antonov J, Zengxi Z, Dooley H, Selemenov K, Tereschenkov B, Michaels T (1994) Observational evidence of decadal-scale variability of the North Atlantic ocean. In: Natural climate variability on decade to century time scales. National Academy Press, Washington DC (in press)
Mellor GL, Mechoso CR, Keto E (1982) A diagnostic model of the general circulation of the Atlantic Ocean. Deep-Sea Res 29:1171–1192
Michaud R, Lin CA (1991) Seasonal, monthly and annual reports of Ocean Weather Stations: anomaly time series of surface heat budget parameters. C2GCR Rep No 91–3, McGill University, Montreal
Mysak LA, Power SB (1992) Sea-ice anomalies in the western Arctic and Greenland-Iceland sea and their relation to an interdecadal climate cycle. Clim Bul 26:147–176
Mysak LA, Manak DK, Marsden RF (1990) Sea-ice anomalies observed in the Greenland and Labrador seas during 1901–1984 and their relation to an interdecadal Arctic climate cycle. Clim Dyn 5:111–133
Palmer TN, Sun Z (1985) A modelling and observational study of the relationship between sea surface temperature in the north-west Atlantic and the atmospheric general circulation. Q J R Meteorol Soc 111:947–975
Peng S, Mysak LA (1993) A teleconnection study of interannual sea surface temperature fluctuations in the northern North Atlantic and precipitation and runoff over western Siberia. J Clim 6:876–885
Power SB, Mysak LA (1992) On the interannual variability of Arctic sea level pressure and sea-ice. Atmos-Ocean 30:551–577
Roebber PJ (1984) Statistical analysis and updated climatology of explosive cyclones. Mon Weather Rev 112:1577–1589
Slutz RJ, Lubker SJ, Hiscox JD, Woodruff SD, Jenne RL, Joseph DH, Steurer PM, Elms JD (1985) Comprehensive ocean-atmosphere data set: Release 1 NOAA Environmental Research Lab, Climate Research Program, Boulder, Colorado
Stocker TF, Mysak LA (1992) Climatic fluctuations on the century time scale: a review of high resolution proxy data and possible mechanisms. Clim Change 20:227–250
Thompson KR, Hazen MG (1983) Interseasonal changes of wind stress and Ekman upwelling: North Atlantic, 1950–1980. Can Tech Rep Fish Aqua Sci 1214 Ocean Science and Surveys, Atlantic, Department of Fisheries and Oceans, Canada
Ueno K (1993) Interannual variability of surface cyclone tracks, atmospheric circulation patterns, and precipitation patterns, in winter. J Meteorol Soc Jap 71:655–671
Van der Leeden F, Troise FL, Todd DK (1991) The water encyclopedia, Lewis, Chelsea, Michigan, USA
Weaver AJ, Hughes TMC (1992) Stability and variability of the thermohaline circulation and its link to climate. Trends Phys Oceanogr 1:15–69
Weaver AJ, Sarachik ES (1991) Evidence for decadal variability in an ocean general circulation model. Atmos-Ocean 29:197–231
Weaver AJ, Sarachik ES, Marotzke J (1991) Freshwater flux forcing of decadal and interdecadal oceanic variability. Nature 353:836–838
Weaver AJ, Marotzke J, Cummins PF, Sarachik ES (1993) Stability and variability of the thermohaline circulation. J Phys Oceanogr 23:39–60
Weaver AJ, Aura SM, Myers PG (1994) Interdecadal variability in an idealized model of the North Atlantic. J Geophys Res 99:12423–12441
Weisse R, Mikolajewicz IU, Maier-Reimer E (1994) Decadal variability of the North Atlantic in an ocean general circulation model. J Geophys Res 99:12411–12421
Yang J, Neelin JD (1993) Sea-ice interaction with the thermohaline circulation. Geophys Res Let 20:217–220
Zhang S, Lin CA, Greatbatch RJ (1995) A decadal oscillation due to the coupling between an ocean circulation model and a thermodynamic sea-ice model. J Mar Res (in press)
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Wohlleben, T.M.H., Weaver, A.J. Interdecadal climate variability in the subpolar North Atlantic. Climate Dynamics 11, 459–467 (1995). https://doi.org/10.1007/BF00207195
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DOI: https://doi.org/10.1007/BF00207195