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REFERENCES
ability in an earth system model of intermediate complexity,
Geosci. Model Dev., 3, 377
389, doi:10.5194/gmd-3-377-2010.
Ganopolski, A., and S. Rahmstorf (2002), Abrupt glacial climate
changes due to stochastic resonance, Phys. Rev. Lett., 88, 038501,
4 pp.
Ghil, M., et al. (2002), Advanced spectral methods for climatic time
series, Rev. Geophys., 40(1), 1003, doi:10.1029/2000RG000092.
Gitterman, M. (2005), The Noisy Oscillator, 160 pp., World Sci.,
Hakensack, N. J.
Goosse, H., and T. Fichefet (1999), Importance of ice-ocean inter-
actions for the global ocean circulation: A model study, J. Geo-
phys. Res., 104(C10), 23,337
-
Alley, R. B., S. Anandakrishnan, and P. Jung (2001), Stochastic
resonance in the North Atlantic, Paleoceanography, 16,190
198.
Alley, R. B., et al. (2003), Abrupt climate change, Science, 299,
2005
-
2010, doi:10.1126/science.1081056.
Blunier, T., and E. J. Brook (2001), Synchronization of the Byrd and
Greenland (GISP2/GRIP) Records, IGBP PAGES/World Data
Center for Paleoclimatology, Data Contrib. Ser. 2001-003,http://
www.ncdc.noaa.gov/paleo, NOAA/NCDC Paleoclimatol. Pro-
gram, Boulder Colo.
Bond, G., W. Broecker, S. Johnsen, J. McManus, L. Labeyrie, J.
Jouzel, and G. Bonani (1993), Correlations between climate
records from North Atlantic sediments and Greenland ice, Na-
ture, 365, 143
-
23,355.
Goosse, H., H. Renssen, F. M. Selten, R. J. Haarsma, and J. D.
Opsteegh (2002), Potential causes of abrupt climate events: A
numerical study with a three-dimensional climate model, Geo-
phys. Res. Lett., 29(18), 1860, doi:10.1029/2002GL014993.
Haarsma, R. J., J. D. Opsteegh, F. M. Selten, and X. Wang (2001),
Rapid transitions and ultra-low frequency behavior in a 40 kyr
integration with a coupled climate model of intermediate com-
plexity, Clim. Dyn., 17, 559
-
147.
Bond, G., W. Showers, M. Chesby, L. Lotti, P. Almasi, P. deMeno-
cal, P. Priore, H. Cullen, I. Hajdas, and G. Bonani (1997), A
pervasive millennial-scale cycle in North Atlantic Holocene and
glacial climates, Science, 278, 1257
-
1266.
Broecker, W., G. Bond, M. Klas, E. Clark, and J. McManus (1992),
Origin of the northern Atlantic
-
570.
Heinrich, H. (1988), Origin and consequences of cyclic ice rafting
in the northeast Atlantic Ocean during the past 130,000 years,
Quat. Res., 29, 143
-
'
s Heinrich events, Clim. Dyn., 6,
273.
Bryan, F. (1986), High latitude salinity effects and interhemispheric
thermohaline circulation, Nature, 323, 301
265
-
152.
Huybers, P., and C. Wunsch (2010), Paleophysical oceano-
graphy with an emphasis on transport rates, Annu. Rev. Mar. Sci.,
2,1
-
304.
Campin, J. M., and H. Goosse (1999), A parameterization of density-
driven downsloping
-
flow for a coarse-resolution model in z-
coordinate, Tellus, Ser. A, 51, 412
34.
Imkeller, P. (2001), Energy balance models
-
430.
Cayre, O., Y. Lancelot, E. Vincent, and M. A. Hall (1999), Paleo-
ceanographic reconstructions from planktonic foraminifera off
the Iberian margin: Temperature, salinity and Heinrich events,
Paleoceanongraphy, 14, 384
-
Viewed from stochas-
tic dynamics, in Stochastic Climate Models, edited by P. Imkeller
and J. von Storch, pp. 213
—
240, Birkhauser, Basel, Switzerland.
Johnsen, S., D. Dahl-Jensen, W. Dansgaard, and N. Gundestrup
(1995), Greenland palaeotemperatures derived from GRIP bore
hole temperature and ice core isotope pro
-
396.
Clark, P. U., N. G. Pisias, T. F. Stocker, and A. J. Weaver (2002),
The role of the thermohaline circulation in abrupt climate change,
Nature, 415, 863
-
les, Tellus, Ser. B, 47,
629.
Knutti, R., J. Fluckiger, T. F. Stoker, and A. Timmermann (2004),
Strong hemispheric coupling of glacial climate through freshwa-
ter discharge, Nature, 430, 851
624
-
869.
ColindeVerdiere,A.,M.BenJelloul,andF.S
é
vellec (2006),
Bifurcation structure of thermohaline millennial oscillations,
J. Clim., 19, 5777
-
856.
Laskar, J., P. Robutel, F. Joutel, M. Gastineau, A. C. M. Correia, and
B. Levrard (2004), A long-term numerical solution for the inso-
lation quantities of the Earth, Astron. Astrophys., 428, 261
-
5795.
Collins, J. J., C. Chow, and T. Imhoff (1996), Aperiodic stochastic
resonance in excitable systems, Phys. Rev. E, 52, R3321
-
R3324.
Dansgaard, W., et al. (1993), Evidence for general instability of past
climate from a 250-kyr ice-core record, Nature, 264, 218
-
-
285,
doi:10.1051/0004-6361:20041335.
Lisiecki, L. E., and M. E. Raymo (2005), A Pliocene-Pleistocene
stack of 57 globally distributed benthic
220.
Ditlevsen, P. D., K. K. Andersen, and A. Svensson (2007), The DO-
climate events are probably noise induced: Statistical investiga-
tion of the claimed 1470 years cycle, Clim. Past, 3, 129
-
18
O records, Paleocea-
nography, 20, PA1003, doi:10.1029/2004PA001071.
Lorenz, E. N. (1976), Nondeterministic theories of climatic change,
Quat. Res., 6, 495
δ
134.
EPICA Community Members (2006), One-to-one coupling of gla-
cial climate variability in Greenland and Antarctica, Nature, 444,
195
-
506.
Loving, J. L., and G. K. Vallis (2005), Mechanisms for climate
variability during glacial and interglacial periods, Paleoceano-
graphy, 20, PA4024, doi:10.1029/2004PA001113.
Marchal, O., C. Jackson, J. Nilsson, A. Paul, and T. Stocker (2007),
Buoyancy-driven
-
198.
Flückiger, J., R. Knutti, and J. W. C. White (2006), Oceanic pro-
cesses as potential trigger and amplifying mechanisms for Hein-
rich events, Paleoceanography, 21, PA2014, doi:10.1029/
2005PA001204.
Friedrich, T., A. Timmermann, L. Menviel, O. Elison Timm, A.
Mouchet, and D. M. Roche (2010), The mechanism behind
internally generated centennial-to-millennial scale climate vari-
-
flow and nature of vertical mixing in a zonally
averaged model, in Ocean Circulation: Mechanisms and Impacts,
Geophys. Monogr. Ser., vol. 173, edited by A. Schmittner,
J. C. H. Chiang, and S. R. Hemming, pp. 33
-
52, AGU, Wash-
ington, D. C.
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