Bistability of the thermohaline circulation identified through comprehensive 2-parameter sweeps of an efficient climate model
Bistability of the thermohaline circulation identified through comprehensive 2-parameter sweeps of an efficient climate model
The effect of changes in zonal and meridional atmospheric moisture transports on Atlantic overturning is investigated. Zonal transports are considered in terms of net moisture export from the Atlantic sector. Meridional transports are related to the vigour of the global hydrological cycle. The equilibrium thermohaline circulation (THC) simulated with an efficient climate model is strongly dependent on two key parameters that control these transports: an anomaly in the specified Atlantic–Pacific moisture flux (?Fa) and atmospheric moisture diffusivity (Kq). In a large ensemble of spinup experiments, the values of ?Fa and Kq are varied by small increments across wide ranges, to identify sharp transitions of equilibrium THC strength in a 2-parameter space (between Conveyor "On" and "Off" states). Final states from this ensemble of simulations are then used as the initial states for further such ensembles. Large differences in THC strength between ensembles, for identical combinations of ?Fa and Kq, reveal the co-existence of two stable THC states (Conveyor "On" and "Off")—i.e. a bistable regime. In further sensitivity experiments, the model is forced with small, temporary freshwater perturbations to the mid-latitude North Atlantic, to establish the minimum perturbation necessary for irreversible THC collapse in this bistable regime. A threshold is identified in terms of the forcing duration required. The model THC, in a "Conveyor On" state, irreversibly collapses to a "Conveyor Off" state under additional freshwater forcing of just 0.1 Sv applied for around 100 years. The irreversible collapse is primarily due to a positive feedback associated with suppressed convection and reduced surface heat loss in the sinking region. Increased atmosphere-to-ocean freshwater flux, under a collapsed Conveyor, plays a secondary role.
761-777
Marsh, R.
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Yool, A.
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Lenton, T.M.
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Gulamali, M.Y.
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Edwards, N.R.
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Shepherd, J.G.
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Krznaric, M.
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Newhouse, S.
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Cox, S.J.
feea307f-f0e1-4063-869b-a3d0d947bfe2
2004
Marsh, R.
702c2e7e-ac19-4019-abd9-a8614ab27717
Yool, A.
882aeb0d-dda0-405e-844c-65b68cce5017
Lenton, T.M.
f2b4fe3d-ef5e-4c85-9677-bfc20c266b65
Gulamali, M.Y.
2a5c3882-96a4-41bc-942c-16fb4786ede7
Edwards, N.R.
e41b719b-784e-4748-acc4-6ccbc4643c7d
Shepherd, J.G.
f38de3ac-eb3b-403f-8767-c76be68d8bf2
Krznaric, M.
3da1051e-3f47-4c14-96b1-9d2aa34b32b4
Newhouse, S.
ff887994-aa73-443f-93a4-9aa72923d29c
Cox, S.J.
feea307f-f0e1-4063-869b-a3d0d947bfe2
Marsh, R., Yool, A., Lenton, T.M., Gulamali, M.Y., Edwards, N.R., Shepherd, J.G., Krznaric, M., Newhouse, S. and Cox, S.J.
(2004)
Bistability of the thermohaline circulation identified through comprehensive 2-parameter sweeps of an efficient climate model.
Climate Dynamics, 23 (7-8), .
(doi:10.1007/s00382-004-0474-1).
Abstract
The effect of changes in zonal and meridional atmospheric moisture transports on Atlantic overturning is investigated. Zonal transports are considered in terms of net moisture export from the Atlantic sector. Meridional transports are related to the vigour of the global hydrological cycle. The equilibrium thermohaline circulation (THC) simulated with an efficient climate model is strongly dependent on two key parameters that control these transports: an anomaly in the specified Atlantic–Pacific moisture flux (?Fa) and atmospheric moisture diffusivity (Kq). In a large ensemble of spinup experiments, the values of ?Fa and Kq are varied by small increments across wide ranges, to identify sharp transitions of equilibrium THC strength in a 2-parameter space (between Conveyor "On" and "Off" states). Final states from this ensemble of simulations are then used as the initial states for further such ensembles. Large differences in THC strength between ensembles, for identical combinations of ?Fa and Kq, reveal the co-existence of two stable THC states (Conveyor "On" and "Off")—i.e. a bistable regime. In further sensitivity experiments, the model is forced with small, temporary freshwater perturbations to the mid-latitude North Atlantic, to establish the minimum perturbation necessary for irreversible THC collapse in this bistable regime. A threshold is identified in terms of the forcing duration required. The model THC, in a "Conveyor On" state, irreversibly collapses to a "Conveyor Off" state under additional freshwater forcing of just 0.1 Sv applied for around 100 years. The irreversible collapse is primarily due to a positive feedback associated with suppressed convection and reduced surface heat loss in the sinking region. Increased atmosphere-to-ocean freshwater flux, under a collapsed Conveyor, plays a secondary role.
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Published date: 2004
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Issue not available yet online 13/01/05
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Local EPrints ID: 13554
URI: http://eprints.soton.ac.uk/id/eprint/13554
ISSN: 0930-7575
PURE UUID: 4c3a09f8-3f66-4446-aa6a-05a8e9e5c850
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Date deposited: 13 Jan 2005
Last modified: 16 Mar 2024 02:47
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Author:
A. Yool
Author:
T.M. Lenton
Author:
M.Y. Gulamali
Author:
N.R. Edwards
Author:
M. Krznaric
Author:
S. Newhouse
Author:
S.J. Cox
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