Contributions of Convectively Coupled Equatorial Rossby Waves and Kelvin Waves to the Real-Time Multivariate MJO Indices

Roundy, Paul E.; Schreck, Carl J.; Janiga, Matthew A.

doi:10.1175/2008mwr2595.1

Cited by 87 publications

(113 citation statements)

References 16 publications

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“…Moreover, the method is straightforward to adopt and has already been applied at several operational centers, albeit in slightly different forms. Disadvantages of the method are i) minor contamination from higher-frequency variability unrelated to the MJO still exists (Roundy et al 2009), ii) minor ambiguities arising from the removal of interannual variability such as that associated with ENSO, and iii) the index is unable to account for interevent variations of MJO structure. Specific details of this method are outlined below, specifically noting one slight modification from WH04 that was adopted for this activity.…”

Section: Mjo Forecast Diagnostic and Skill Metricsmentioning

confidence: 99%

A Framework for Assessing Operational Madden–Julian Oscillation Forecasts

Gottschalck¹,

Wheeler²,

Weickmann³

et al. 2010

Bull. Amer. Meteor. Soc.

223

176

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Multiple operational centers helped develop and apply a diagnostic to track the state of the MJO and skill of real-time numerical MJO forecasts.T he Madden-Julian oscillation (MJO) is the dominant mode of intraseasonal variability across the global tropics and is a natural component of the coupled atmosphere-ocean system. The MJO is characterized by coherent eastward propagation of a large-scale pattern of increased rainfall (enhanced phase) followed by subsequent decreased rainfall (suppressed phase). The period of the MJO to complete a cycle across the global tropics typically ranges from 30 to 60 days. The large-scale rainfall perturbation is associated with a planetary-scale zonal overturning circulation anomaly along the equator that extends through the depth of the troposphere and that causes interactions with the ocean via variations of surface fluxes of momentum, heat, and moisture (Madden and Julian 1971, 1972, 1994Zhang 2005).The MJO has been intensively studied during the past 35 years through both observational analysis and modeling studies, and it has been shown that the MJO can lead to numerous impacts affecting weather and climate (

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Section: Mjo Forecast Diagnostic and Skill Metricsmentioning

confidence: 99%

A Framework for Assessing Operational Madden–Julian Oscillation Forecasts

Gottschalck¹,

Wheeler²,

Weickmann³

et al. 2010

Bull. Amer. Meteor. Soc.

223

176

View full text Add to dashboard Cite

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“…When assessed over a long climatology, the spectra of these signals are not easily distinguished from red noise except that signals characterized by phase speeds between 2 and 8 m s 21 appear to be favored (Roundy 2012a). Following a 40-yr tradition, the Madden-Julian oscillation (MJO; Madden andJulian 1972, 1994;Zhang 2005) is frequently described as a distinct signal projecting most strongly onto planetary scales and the 30-60-or 40-50-day band.…”

Section: Introductionmentioning

confidence: 99%

“…Hereafter, I label these 30-60-day signals as the traditionally defined MJO. A few authors have extended this band to include periods in the intraseasonal range greater than 20 days (e.g., Sobel and Kim 2012;Kim et al 2009). Those who have extended the range to shorter time scales have frequently done so to accommodate different forms of intraseasonal variability in models [such as Kim et al (2009)], while others might have observed that some disturbances in the 20-30-day band take on characteristics of MJO events [such as during December 2011 during the Dynamics of the MJO (DYNAMO) field campaign (Gottschalck et al 2013;Yoneyama et al 2013)].…”

Section: Introductionmentioning

confidence: 99%

Regression Analysis of Zonally Narrow Components of the MJO

Roundy

2014

Journal of the Atmospheric Sciences

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Recent works have demonstrated that eastward-propagating features smaller than zonal wavenumber 3 but with spatial structures similar to those of the Madden-Julian oscillation (MJO) frequently develop over the Indo-Pacific warm pool. These signals are characterized by periods shorter than 4 weeks, but since they occur as part of a spectral peak of the MJO, they might be characterized by similar physics. These zonally narrow features occur at any phase of traditionally defined 30-60-day MJO events, but they occur most frequently in its active convective phase. This work presents a linear regression analysis based on filtering in the wavenumber-frequency domain to compare such signals with traditionally defined MJOs and 15-30 m s 21 , convectively coupled Kelvin waves. Results show that the trough collocated with the easterly wind anomaly extends westward into the region of lower-tropospheric westerly wind and deep convection in the zonally narrow slow signals and MJOs. The fast Kelvin waves have a ridge anomaly collocated with the westerly wind anomaly. The zonally narrow slow signals and MJOs include a warm anomaly in the boundary layer west of the deep convection that is absent in fast Kelvin waves. Results suggest that MJO dynamics are not confined to the 30-60-day band and that time scales as short as 2 weeks could be considered in wavenumber-frequency diagnostics for the MJO.

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“…On 22 September it transitioned to phase 6, which is generally associated with enhanced convection in the western Pacific. While the RMM is a valuable tool for tracking the MJO, it can be sensitive to higherfrequency equatorial wave (Roundy et al 2009). Thus, the 20-100-day bandpass-filtered OLR and 850-hPa winds were examined.…”

Section: Contribution From Large-scale Intraseasonal Variabilitymentioning

confidence: 99%

Tropical Cyclone Mekkhala’s (2008) Formation over the South China Sea: Mesoscale, Synoptic-Scale, and Large-Scale Contributions

Park

Kim

et al. 2015

Monthly Weather Review

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Tropical cyclone formation close to the coastline of the Asian continent presents a significant threat to heavily populated coastal countries. A case study of Tropical Storm Mekkhala (2008) that developed off the coast of Vietnam is presented using the high-resolution analyses of the European Centre for MediumRange Weather Forecasts/Year of Tropical Convection and multiple satellite observations. The authors have analyzed contributions to the formation from large-scale intraseasonal variability, synoptic perturbations, and mesoscale convective systems (MCSs). Within a large-scale westerly wind burst (WWB) associated with the Madden-Julian oscillation (MJO), synoptic perturbations generated by two preceding tropical cyclones initiated the pre-Mekkhala low-level vortex over the Philippine Sea. Typhoon Hagupit produced a synoptic-scale wave train that contributed to the development of Jangmi, but likely suppressed the Mekkhala formation. The low-level vortex of the pre-Mekkhala disturbance was then initiated in a confluent zone between northeasterlies in advance of Typhoon Jangmi and the WWB. A key contribution to the development of Mekkhala was from diurnally varying MCSs that were invigorated in the WWB. The oceanic MCSs, which typically develop off the west coast of the Philippines in the morning and dissipate in the afternoon, were prolonged beyond the regular diurnal cycle. A combination with the MCSs developing downstream of the Philippines led to the critical structure change of the oceanic convective cluster, which implies the critical role of mesoscale processes. Therefore, the diurnally varying mesoscale convective processes over both the ocean and land are shown to have an essential role in the formation of Mekkhala in conjunction with large-scale MJO and the synoptic-scale TC influences.

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Contributions of Convectively Coupled Equatorial Rossby Waves and Kelvin Waves to the Real-Time Multivariate MJO Indices

Cited by 87 publications

References 16 publications

A Framework for Assessing Operational Madden–Julian Oscillation Forecasts

A Framework for Assessing Operational Madden–Julian Oscillation Forecasts

Regression Analysis of Zonally Narrow Components of the MJO

Tropical Cyclone Mekkhala’s (2008) Formation over the South China Sea: Mesoscale, Synoptic-Scale, and Large-Scale Contributions

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