Daifang Gu scite author profile

The unexpected and prolonged persistence of warm conditions over the tropical Pacific during the early 1990s can be attributed to an interdecadal climate fluctuation that involves changes in the properties of the equatorial thermocline arising as a result of an influx of water with anomalous temperatures from higher latitudes. The influx affects equatorial sea-surface temperatures and hence the tropical and extratropical winds that in turn affect the influx. A simple model demonstrates that these processes can give rise to continual interdecadal oscillations.

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Why the ITCZ Is Mostly North of the Equator

Philander

et al. 1996

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Secular Changes of Annual and Interannual Variability in the Tropics during the Past Century

1995

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Simulated ENSO in a Global Coupled Ocean–Atmosphere Model: Multidecadal Amplitude Modulation and CO₂Sensitivity

Knutson¹,

Manabe²,

Gu³

1997

J. Climate

168

143

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An analysis is presented of simulated ENSO phenomena occurring in three 1000-yr experiments with a lowresolution (R15) global coupled ocean-atmosphere GCM. Although the model ENSO is much weaker than the observed one, the model ENSO's life cycle is qualitatively similar to the ''delayed oscillator'' ENSO life cycle simulated using much higher resolution ocean models. Thus, the R15 coupled model appears to capture the essential physical mechanism of ENSO despite its coarse ocean model resolution. Several observational studies have shown that the amplitude of ENSO has varied substantially between different multidecadal periods during the past century. A wavelet analysis of a multicentury record of eastern tropical Pacific SST inferred from ␦ 18 O measurements suggests that a similar multidecadal amplitude modulation of ENSO has occurred for at least the past three centuries. A similar multidecadal amplitude modulation occurs for the model ENSO (2-7-yr band), which suggests that much of the past amplitude modulation of the observed ENSO could be attributable to internal variability of the coupled ocean-atmosphere system. In two 1000-yr CO 2 sensitivity experiments, the amplitude of the model ENSO decreases slightly relative to the control run in response to either a doubling or quadrupling of CO 2. This decreased variability is due in part to CO 2-induced changes in the model's time-mean basic state, including a reduced time-mean zonal SST gradient. In contrast to the weaker overall amplitude, the multidecadal amplitude modulations become more pronounced with increased CO 2. The frequency of ENSO in the model does not appear to be strongly influenced by increased CO 2. Since the multidecadal fluctuations in the model ENSO's amplitude are comparable in magnitude to the reduction in variability due to a quadrupling of CO 2 , the results suggest that the impact of increased CO 2 on ENSO is unlikely to be clearly distinguishable from the climate system ''noise'' in the near future-unless ENSO is substantially more sensitive to increased CO 2 than indicated in the present study.

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Expected Structure of Extreme Waves in a Gaussian Sea. Part I: Theory and SWADE Buoy Measurements

Phillips¹,

Gu²,

Donelan³

1993

J. Phys. Oceanogr.

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Daifang Gu

Interdecadal Climate Fluctuations That Depend on Exchanges Between the Tropics and Extratropics

Why the ITCZ Is Mostly North of the Equator

Secular Changes of Annual and Interannual Variability in the Tropics during the Past Century

Simulated ENSO in a Global Coupled Ocean–Atmosphere Model: Multidecadal Amplitude Modulation and CO₂Sensitivity

Expected Structure of Extreme Waves in a Gaussian Sea. Part I: Theory and SWADE Buoy Measurements

Contact Info

Product

Resources

About

Daifang Gu

Interdecadal Climate Fluctuations That Depend on Exchanges Between the Tropics and Extratropics

Why the ITCZ Is Mostly North of the Equator

Secular Changes of Annual and Interannual Variability in the Tropics during the Past Century

Simulated ENSO in a Global Coupled Ocean–Atmosphere Model: Multidecadal Amplitude Modulation and CO2Sensitivity

Expected Structure of Extreme Waves in a Gaussian Sea. Part I: Theory and SWADE Buoy Measurements

Contact Info

Product

Resources

About

Simulated ENSO in a Global Coupled Ocean–Atmosphere Model: Multidecadal Amplitude Modulation and CO₂Sensitivity