Climate Variability & Change
Working Group CVCWG
CESM1 Atlantic Pacemaker Ensemble
A 10-member ensemble of CESM1 (1 degree spatial resolution) simulations in which time-evolving SST anomalies in the North Atlantic
(5oN-55oN, with a lnearly tapering buffer zone that extends to EQ and 60N, the Atlantic basin) are nudged to observations (NOAA
Extended Reconstruction Sea Surface Temperature version 3: ERSSTv3b) during 1920-2013. In this way, the observed evolution of North Atlantic
SSTs are maintained in each simulation, with the rest of the model's coupled climate system free to evolve.
Note that only the SST anomalies, not the total SST, are nudged to observations, maintaining the model's mean state,
including any model biases. All external forcings are identical to the LENS, aside from stratospheric ozone. Further details are
provided in the papers below:
- Yang D., J.M. Arblaster, G.A. Meehl, M.H. England, E.-P. Lim, S. Bates, N. Rosenbloom, 2020, Role of tropical variability in driving
decadal shifts in the Southern Hemisphere summertime eddy-driven jet, J Climate, https://doi.org/10.1175/JCLI-D-19-0604.1
- Meehl G.A. Hu A, Castruccio F, England M.H., Bates SC, Danabasoglu G., McGregor S, Arblaster J.M., Xie S.-P. and Rosenbloom N,
Mutually interactive decadal-timescale processes connecting the tropical Atlantic and Pacific, Nature Geoscience, under
We kindly ask that you reference one of these papers and acknowledge the CVCWG when presenting results based on the CESM1 Pacemaker
Ensemble in either oral and written form.
The CESM1 N. Atlantic Pacemaker 10-member ensemble is available from /campaign store accessed from the NCAR machine cheyenne at
/glade/collections/cdg/data/ATL-PACEMAKER/. If you do not have access to cheyenne you can contact the
CVCWG liaisons for assistance.