The Pacific Meridional Mode and ENSO: a Review

The Pacific Meridional Mode and ENSO: a Review

Purpose of Review This paper reviews recent progress in understanding of the North Pacific Meridional Mode (NPMM) and its influence on the timing, magnitude, flavor, and intensity of the El Niño-Southern Oscillation (ENSO). Recent Findings The NPMM is a seasonally evolving mode of coupled climate va...

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Bibliographic Details
Published in:Current climate change reports Vol. 5; no. 4; pp. 296 - 307
Main Author: Amaya, Dillon J.
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-12-2019
Springer Nature B.V
Subjects:
Anomalies
Anthropogenic climate changes
Anthropogenic factors
Atmospheric models
Atmospheric Sciences
Climate Change
Climate Change Management and Policy
Climate variability
Climatology
Convection
Coupled modes
Earth and Environmental Science
El Nino
El Nino phenomena
El Nino-Southern Oscillation event
Enthalpy
Environment
Equator
Error analysis
Evaporation
Forecast errors
Forecasting models
Heat content
Human influences
Internal Climate Variability (S-P Xie
Oceanography
Planetary waves
Regression analysis
Rossby waves
Sea surface
Section Editor
Southern Oscillation
Spring
Spring (season)
Summer
Surface wind
Topical Collection on Internal Climate Variability
Trade winds
Variability
Wind
Wind stress
Wind stress curl
Winter
Pacific variability
Internal variability
Climate modeling
Energetics framework
Extratropical-tropical interactions
Teleconnections
Climate prediction
Pacific decadal variability
Climate dynamics
Climate change
Pacific meridional mode
Climate variability
Paleoclimate
Subseasonal-to-seasonal forecasting
ITCZ shifts
El Niño-southern oscillation
Tropics
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Summary:Purpose of Review This paper reviews recent progress in understanding of the North Pacific Meridional Mode (NPMM) and its influence on the timing, magnitude, flavor, and intensity of the El Niño-Southern Oscillation (ENSO). Recent Findings The NPMM is a seasonally evolving mode of coupled climate variability and features several distinct opportunities to influence ENSO. They include: (1) A Wind-Evaporation-SST (WES) feedback-driven propagation of surface anomalies onto the equator during boreal spring, (2) Trade Wind Charging (TWC) of equatorial subsurface heat content by NPMM-related surface wind stress curl anomalies in boreal winter and early spring, (3) The reflection of NPMM-forced ocean Rossby waves off the western boundary in boreal summer, and (4) A Gill-like atmospheric response associated with anomalous deep convection in boreal summer and fall. The South Pacific Meridional Mode (SPMM) also significantly modulates ENSO, and its interactions with the NPMM may contribute to ENSO diversity. Together, the NPMM and SPMM are also important components of Tropical Pacific Decadal Variability; however, future research is needed to improve understanding on these timescales. Summary Since 1950, the boreal spring NPMM skillfully predicts about 15–30% of observed winter ENSO variability. Improving simulated NPMM-ENSO relationships in forecast models may reduce ENSO forecasting error. Recent studies have begun to explore the influence of anthropogenic climate change on the NPMM-ENSO relationship; however, the results are inconclusive.
ISSN:2198-6061
2198-6061
DOI:10.1007/s40641-019-00142-x