A modified seasonal cycle during MIS31 super-interglacial favors stronger interannual ENSO and monsoon variability
<p>It has long been recognized that the amplitude of the seasonal cycle can substantially modify climate features in distinct timescales. This study evaluates the impact of the enhanced seasonality characteristic of the Marine Isotope Stage 31 (MIS31) on the El Niño–Southern Oscillation (ENSO)...
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Copernicus Publications
2019-04-01
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| Series: | Climate of the Past |
| Online Access: | https://www.clim-past.net/15/735/2019/cp-15-735-2019.pdf |
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doaj-4337cbddf9884791aff2079982b2adba2020-11-25T00:53:08ZengCopernicus PublicationsClimate of the Past1814-93241814-93322019-04-011573574910.5194/cp-15-735-2019A modified seasonal cycle during MIS31 super-interglacial favors stronger interannual ENSO and monsoon variabilityF. Justino0F. Kucharski1D. Lindemann2A. Wilson3F. Stordal4Department of Agricultural Engineering, Universidade Federal de Vicosa, PH Rolfs, Vicosa, BrazilThe Abdus Salam International Centre for Theoretical Physics, Trieste, ItalyFaculdade de Meteorologia, Universidade Federal de Pelotas, Pelotas, BrasilPolar Meteorology Group, Byrd Polar and Climate Research Center, The Ohio State University, Columbus, OH, USAUniversity of Oslo, Department of Geosciences, Forskningsparken Gaustadalleen, Oslo, Norway<p>It has long been recognized that the amplitude of the seasonal cycle can substantially modify climate features in distinct timescales. This study evaluates the impact of the enhanced seasonality characteristic of the Marine Isotope Stage 31 (MIS31) on the El Niño–Southern Oscillation (ENSO). Based upon coupled climate simulations driven by present-day (CTR) and MIS31 boundary conditions, we demonstrate that the CTR simulation shows a significant concentration of power in the 3–7-year band and on the multidecadal timescale between 15 and 30 years. However, the MIS31 simulation shows drastically modified temporal variability of the ENSO, with stronger power spectrum at interannual timescales but the absence of decadal periodicity. Increased meridional gradient of sea surface temperature (SST) and wind stress in the Northern Hemisphere subtropics are revealed to be the primary candidates responsible for changes in the equatorial variability. The oceanic response to the MIS31 ENSO extends to the extratropics, and fits nicely with SST anomalies delivered by paleoreconstructions. The implementation of the MIS31 conditions results in a distinct global monsoon system and its link to the ENSO in respect to current conditions. In particular, the Indian monsoon intensified but no correlation with ENSO is found in the MIS31 climate, diverging from conditions delivered by our current climate in which this monsoon is significantly correlated with the NIÑO34 index. This indicates that monsoonal precipitation for this interglacial is more closely connected to hemispherical features than to the tropical–extratropical climate interaction.</p>https://www.clim-past.net/15/735/2019/cp-15-735-2019.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
F. Justino F. Kucharski D. Lindemann A. Wilson F. Stordal |
| spellingShingle |
F. Justino F. Kucharski D. Lindemann A. Wilson F. Stordal A modified seasonal cycle during MIS31 super-interglacial favors stronger interannual ENSO and monsoon variability Climate of the Past |
| author_facet |
F. Justino F. Kucharski D. Lindemann A. Wilson F. Stordal |
| author_sort |
F. Justino |
| title |
A modified seasonal cycle during MIS31 super-interglacial favors stronger interannual ENSO and monsoon variability |
| title_short |
A modified seasonal cycle during MIS31 super-interglacial favors stronger interannual ENSO and monsoon variability |
| title_full |
A modified seasonal cycle during MIS31 super-interglacial favors stronger interannual ENSO and monsoon variability |
| title_fullStr |
A modified seasonal cycle during MIS31 super-interglacial favors stronger interannual ENSO and monsoon variability |
| title_full_unstemmed |
A modified seasonal cycle during MIS31 super-interglacial favors stronger interannual ENSO and monsoon variability |
| title_sort |
modified seasonal cycle during mis31 super-interglacial favors stronger interannual enso and monsoon variability |
| publisher |
Copernicus Publications |
| series |
Climate of the Past |
| issn |
1814-9324 1814-9332 |
| publishDate |
2019-04-01 |
| description |
<p>It has long been recognized that the amplitude of the seasonal cycle can
substantially modify climate features in distinct timescales. This study
evaluates the impact of the enhanced seasonality characteristic of the Marine
Isotope Stage 31 (MIS31) on the El Niño–Southern Oscillation (ENSO). Based
upon coupled climate simulations driven by present-day
(CTR) and MIS31 boundary
conditions, we demonstrate that the CTR simulation shows a significant
concentration of power in the 3–7-year band and on the multidecadal
timescale between 15 and 30 years. However, the MIS31 simulation shows
drastically modified temporal variability of the ENSO, with stronger power
spectrum at interannual timescales but the absence of decadal periodicity.
Increased meridional gradient of sea surface temperature (SST) and wind
stress in the Northern Hemisphere subtropics are revealed to be the primary
candidates responsible for changes in the equatorial variability. The oceanic
response to the MIS31 ENSO extends to the extratropics, and fits nicely with
SST anomalies delivered by paleoreconstructions. The implementation of the
MIS31 conditions results in a distinct global monsoon system and its link to
the ENSO in respect to current conditions. In particular, the Indian monsoon
intensified but no correlation with ENSO is found in the MIS31 climate,
diverging from conditions delivered by our current climate in which this
monsoon is significantly correlated with the NIÑO34 index. This indicates
that monsoonal precipitation for this interglacial is more closely connected
to hemispherical features than to the tropical–extratropical climate
interaction.</p> |
| url |
https://www.clim-past.net/15/735/2019/cp-15-735-2019.pdf |
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