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Early warnings and missed alarms for abrupt monsoon transitions

Early warnings and missed alarms for abrupt monsoon transitions
Early warnings and missed alarms for abrupt monsoon transitions
Palaeo-records from China demonstrate that the East Asian Summer Monsoon (EASM) is dominated by abrupt and large magnitude monsoon shifts on millennial timescales, switching between periods of high and weak monsoon rains. It has been hypothesized that over these timescales, the EASM exhibits two stable states with bifurcation-Type tipping points between them. Here we test this hypothesis by looking for early warning signals of past bifurcations in speleothem δ18O records from Sanbao Cave and Hulu Cave, China, spanning the penultimate glacial cycle. We find that although there are increases in both autocorrelation and variance preceding some of the monsoon transitions during this period, it is only immediately prior to the abrupt monsoon shift at the penultimate deglaciation (Termination II) that statistically significant increases are detected. To supplement our data analysis, we produce and analyse multiple model simulations that we derive from these data. We find hysteresis behaviour in our model simulations with transitions directly forced by solar insolation. However, signals of critical slowing down, which occur on the approach to a bifurcation, are only detectable in the model simulations when the change in system stability is sufficiently slow to be detected by the sampling resolution of the data set. This raises the possibility that the early warning "alarms" were missed in the speleothem data over the period 224-150 kyr and it was only at the monsoon termination that the change in the system stability was sufficiently slow to detect early warning signals.
1814-9324
1621-1633
Thomas, Z. A.
4b512d3a-3478-4270-9fdd-61256aa640d3
Kwasniok, F.
95dabe2e-0a2e-42dc-92dc-5b652c2adb35
Boulton, C. A.
4c6cb93a-ee21-4592-8b71-2434435a4778
Cox, P. M.
d531f5d8-f8bc-4251-9370-7f286ecfdf3a
Jones, R. T.
f8b5db51-10c7-4b4e-81e3-e5c3833eb2ce
Lenton, T. M.
38cd5d39-bc7d-4b8f-a04b-24ddf75a5b44
Turney, C. S.M.
5e673fdb-42c9-4bc3-994a-519db28fdec8
et al.
Thomas, Z. A.
4b512d3a-3478-4270-9fdd-61256aa640d3
Kwasniok, F.
95dabe2e-0a2e-42dc-92dc-5b652c2adb35
Boulton, C. A.
4c6cb93a-ee21-4592-8b71-2434435a4778
Cox, P. M.
d531f5d8-f8bc-4251-9370-7f286ecfdf3a
Jones, R. T.
f8b5db51-10c7-4b4e-81e3-e5c3833eb2ce
Lenton, T. M.
38cd5d39-bc7d-4b8f-a04b-24ddf75a5b44
Turney, C. S.M.
5e673fdb-42c9-4bc3-994a-519db28fdec8

et al. (2015) Early warnings and missed alarms for abrupt monsoon transitions. Climate of the Past, 11 (12), 1621-1633. (doi:10.5194/cp-11-1621-2015).

Record type: Article

Abstract

Palaeo-records from China demonstrate that the East Asian Summer Monsoon (EASM) is dominated by abrupt and large magnitude monsoon shifts on millennial timescales, switching between periods of high and weak monsoon rains. It has been hypothesized that over these timescales, the EASM exhibits two stable states with bifurcation-Type tipping points between them. Here we test this hypothesis by looking for early warning signals of past bifurcations in speleothem δ18O records from Sanbao Cave and Hulu Cave, China, spanning the penultimate glacial cycle. We find that although there are increases in both autocorrelation and variance preceding some of the monsoon transitions during this period, it is only immediately prior to the abrupt monsoon shift at the penultimate deglaciation (Termination II) that statistically significant increases are detected. To supplement our data analysis, we produce and analyse multiple model simulations that we derive from these data. We find hysteresis behaviour in our model simulations with transitions directly forced by solar insolation. However, signals of critical slowing down, which occur on the approach to a bifurcation, are only detectable in the model simulations when the change in system stability is sufficiently slow to be detected by the sampling resolution of the data set. This raises the possibility that the early warning "alarms" were missed in the speleothem data over the period 224-150 kyr and it was only at the monsoon termination that the change in the system stability was sufficiently slow to detect early warning signals.

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More information

Accepted/In Press date: 16 November 2015
Published date: 8 December 2015
Additional Information: Publisher Copyright: © Author(s) 2015. CC Attribution 3.0 License.

Identifiers

Local EPrints ID: 476104
URI: http://eprints.soton.ac.uk/id/eprint/476104
DOI: doi:10.5194/cp-11-1621-2015
ISSN: 1814-9324
PURE UUID: f32c71a9-7fc1-4131-a9ff-21ee10966859
ORCID for Z. A. Thomas: ORCID iD orcid.org/0000-0002-2323-4366

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Date deposited: 12 Apr 2023 14:13
Last modified: 17 Mar 2024 04:18

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Author: Z. A. Thomas ORCID iD
Author: F. Kwasniok
Author: C. A. Boulton
Author: P. M. Cox
Author: R. T. Jones
Author: T. M. Lenton
Author: C. S.M. Turney
Corporate Author: et al.

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