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gfdl's home page > gfdl on-line bibliography > 1991: Journal of Marine Systems, 1, 229-241
A note on Bjerknes' hypothesis for North Atlantic variability
| Bryan, K., and R. Stouffer, 1991: A note on Bjerknes' hypothesis for North Atlantic variability. Journal of Marine Systems, 1, 229-241. |
| Abstract: On decadal time-scales the historical surface temperature record over land in the Northern Hemisphere is dominated by polar amplified variations. These variations are coherent with SST anomalies concentrated in the Northwest Atlantic, but extending with lesser amplitude in the North Pacific as well. Bjerknes suggested that multi-year SST anomalies in the subpolar North Atlantic were due to irregular changes in the intensity of the thermohaline circulation. In support of the Bjerknes hypothesis there is evidence that winter overturning in the Labrador Sea was suppressed for a brief period from 1967-1969 by a cap of relative fresh water at the surface. Cause and effect are unclear, but this event was associated with a marked cooling of the entire Northern Hemisphere. |
| The difference in SST averaged over the Northern Hemisphere oceans and SST averages over the Southern Hemisphere oceans from the equator to 40°S is coherent with Sahel summer rainfall on decadal time scales. Empirical evidence is supported by numerical experiments with the British Meteorological Office atmospheric climate model which simulate augmented monsoonal rainfall in the Sahel region of Africa in response to realistic warm SST anomalies in the Northwest Atlantic. A coupled ocean-atmosphere global model exhibits two equilibrium climate states. One has an active thermohaline circulation in the North Atlantic and the other does not. The two climate states provide an extreme example which illustrates the type of large scale air-sea interaction Bjerknes visualized as a mechanism for North Atlantic climate variability on decadal time-scales. |