Reduced ENSO variability at the LGM revealed by an isotope‐enabled Earth system model

Reduced ENSO variability at the LGM revealed by an isotope‐enabled Earth system model

Abstract Studying the El Niño–Southern Oscillation (ENSO) in the past can help us better understand its dynamics and improve its future projections. However, both paleoclimate reconstructions and model simulations of ENSO strength at the Last Glacial Maximum (LGM; 21 ka B.P.) have led to contradicti...

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Bibliographic Details
Main Authors: Jiang Zhu, Zhengyu Liu, Esther Brady, Bette Otto‐Bliesner, Jiaxu Zhang, David Noone, Robert Tomas, Jesse Nusbaumer, Tony Wong, Alexandra Jahn, Clay Tabor
Format: Article
Language:English
Published: Wiley 2017-07-01
Series:Geophysical Research Letters
Subjects:
El Niño–Southern Oscillation
isotope‐enabled simulation
direct model‐data comparison
Last Glacial Maximum
Online Access:https://doi.org/10.1002/2017GL073406
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Summary:Abstract Studying the El Niño–Southern Oscillation (ENSO) in the past can help us better understand its dynamics and improve its future projections. However, both paleoclimate reconstructions and model simulations of ENSO strength at the Last Glacial Maximum (LGM; 21 ka B.P.) have led to contradicting results. Here we perform model simulations using the recently developed water isotope‐enabled Community Earth System Model (iCESM). For the first time, model‐simulated oxygen isotopes are directly compared with those from ENSO reconstructions using the individual foraminifera analysis (IFA). We find that the LGM ENSO is most likely weaker comparing with the preindustrial. The iCESM suggests that total variance of the IFA records may only reflect changes in the annual cycle instead of ENSO variability as previously assumed. Furthermore, the interpretation of subsurface IFA records can be substantially complicated by the habitat depth of thermocline‐dwelling foraminifera and their vertical migration with a temporally varying thermocline.
ISSN:0094-8276
1944-8007

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