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- Title
Low-Pass Filtering, Heat Flux, and Atlantic Multidecadal Variability.
- Authors
Cane, Mark A.; Clement, Amy C.; Murphy, Lisa N.; Bellomo, Katinka
- Abstract
In this model study the authors explore the possibility that the internal component of the Atlantic multidecadal oscillation (AMO) sea surface temperature (SST) signal is indistinguishable from the response to white noise forcing from the atmosphere and ocean. Here, complex models are compared without externally varying forcing with a one-dimensional noise-driven model for SST. General analytic expressions are obtained for both unfiltered and low-pass filtered lead-lag correlations. It is shown that this simple model reproduces many of the simulated lead-lag relationships among temperature, rate of change of temperature, and surface heat flux. It is concluded that the finding that at low frequencies the ocean loses heat to the atmosphere when the temperature is warm, which has been interpreted as showing that the ocean circulation drives the AMO, is a necessary consequence of the fact that at long periods the net heat flux (ocean plus atmosphere) is zero to a good approximation. It does not distinguish between the atmosphere and ocean as the source of the AMO and is consistent with the hypothesis that the AMO is driven by white noise heat fluxes. It is shown that some results in the literature are artifacts of low-pass filtering, which creates spurious low-frequency signals when the underlying data are white or red noise. It is concluded that in the absence of external forcing the AMO in most GCMs is consistent with being driven by white noise, primarily from the atmosphere.
- Subjects
HEAT flux; OCEAN temperature; WHITE noise; ATMOSPHERE; NORTH Atlantic oscillation; ATMOSPHERICS; OCEAN circulation
- Publication
Journal of Climate, 2017, Vol 30, Issue 18, p7529
- ISSN
0894-8755
- Publication type
Article
- DOI
10.1175/JCLI-D-16-0810.1