Whole Atmosphere Coupling on Intraseasonal and Interseasonal Time Scales: A Potential Source of Increased Predictive Capability

Sassi, Fabrizio; McCormack, J. P.; McDonald, S. E.

doi:10.1029/2019rs006847

Cited by 24 publications

(22 citation statements)

References 178 publications

(231 reference statements)

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“…Pedatella et al (2016) suggested that an enhanced migrating semidiurnal tide (SW2) during SSW events is able to induce a global‐scale upward circulation and thereby a reduction of zonal mean O/N 2 ratio and electron densities (Liu & Roble, 2002; Oberheide et al, 2020; Shepherd et al, 1999). In addition, the intraseasonal variability (e.g., Sassi et al, 2019; Vergados et al, 2018) in the lower atmosphere could be responsible for the observed 60‐day oscillation in brightness as well. However, the 60‐day periodicity is beyond the scope of the current study.…”

Section: Resultsmentioning

confidence: 98%

New Observations of Large‐Scale Waves Coupling With the Ionosphere Made by the GOLD Mission: Quasi‐16‐Day Wave Signatures in the F‐Region OI 135.6‐nm Nightglow During Sudden Stratospheric Warmings

et al. 2020

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The recently launched Global-scale Observations of the Limb and Disk (GOLD) Mission observed prominent quasi-16-day oscillations (Q16DOs) in the OI 135.6-nm nightglow from the equatorial ionization anomaly (EIA) region during 26 November 2018 to 25 January 2019. Meanwhile, the enhanced and concurrent quasi-16-day wave (Q16DW) activity was observed in the middle atmosphere by the Sounding of the Atmosphere using Broadband Emission Radiometry (SABER) instrument. This implies that the F-region ionosphere couples with the lower atmosphere through large-scale waves. A noteworthy phenomenon was that the Q16DOs displayed an asymmetric behavior between the northern and southern EIA crests. This asymmetry indicates that the ionospheric Q16DOs might be driven by the Q16DW-modulated tides, which not only modulated the E-region dynamo winds but also modulated the F-region field-aligned neutral winds via vertical penetration, producing the oscillations in plasmas densities.Plain Language Summary Driving of the short-term variability in the ionosphere is a crucial scientific question of space physics, which connects the thermosphere and ionosphere to the solar and magnetospheric forcing, as well as terrestrial atmosphere weather. It is also the most challenge part of space weather forecast. Traveling planetary waves (PWs), including the eastward propagating Kelvin waves and westward propagating Rossby waves, are responsible for a large amount of day-to-day variability in ionospheric parameters. Our study showed an evidence of the Rossby waves coupling with the nighttime F-region ionosphere observed by GOLD. More importantly, the observations suggested a physical pathway accounting for the PW coupling in the atmosphere-ionosphere system; that is, PW-modulated tides penetrate into the F-region ionosphere and produce the field-aligned motion of the plasmas, leading to the oscillations in electron density at the PW periods.

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Section: Resultsmentioning

confidence: 98%

New Observations of Large‐Scale Waves Coupling With the Ionosphere Made by the GOLD Mission: Quasi‐16‐Day Wave Signatures in the F‐Region OI 135.6‐nm Nightglow During Sudden Stratospheric Warmings

et al. 2020

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“…Observational and modeling studies have revealed that these perturbations were related to the vertical coupling of various lower‐atmospheric waves, such as planetary waves (Pedatella & Forbes, 2009; Vineeth et al., 2009), solar tides (Fuller‐Rowell et al., 2011; Jin et al., 2012; Pedatella et al., 2014), and lunar tides (Fejer et al., 2010; Forbes & Zhang, 2012; J. Liu et al., 2019; Mo & Zhang, 2018; Pedatella et al., 2014). Two coupling mechanisms have emphasized how the lower‐atmospheric waves couple with the F‐region (H. L. Liu, 2016; Pogoreltsev et al., 2007; Sassi et al., 2019; Takahashi et al., 2007; Yamazaki & Richmond, 2013), namely, modulations on the equatorial fountain effect in the E‐region (Goncharenko, Chan, et al., 2010; Goncharenko, Coster, et al., 2010; Pedatella et al., 2012, 2014), and wave propagation directly up to the F‐region (Goncharenko & Zhang, 2008; Park & Lühr, 2012; Pedatella & Maute, 2015). The relative importance of these two mechanisms is not yet conclusively known, partially due to the restriction that most relevant studies are on the equatorial or low‐latitude regions where both mechanisms are active.…”

Section: Introductionmentioning

confidence: 99%

The Latitudinal Variation and Hemispheric Asymmetry of the Ionospheric Lunitidal Signatures in the American Sector During Major Sudden Stratospheric Warming Events

et al. 2021

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“…Shorter‐period (i.e., 3–15 days) oscillations in the lower thermosphere are also common and are thought to result from the dissipation of upward propagating UFKW (Riggin et al, 1997; Tsutsumi et al, 1996) originating in the lower atmosphere and confined to the tropics. While recent attention has focused primarily on the impact of the lower atmosphere on the thermosphere over shorter (e.g., hours to days) and longer (e.g., >100 days) time scales, the role of lower atmospheric variability on intraseasonal (∼30–90 days) time scales has not been clearly established (e.g., Sassi et al, 2019). The Madden‐Julian Oscillation (MJO) is the dominant form of intraseasonal variability in the tropical atmosphere (Madden & Julian, 1972).…”

Section: Introductionmentioning

confidence: 99%

Preliminary Evidence of Madden‐Julian Oscillation Effects on Ultrafast Tropical Waves in the Thermosphere

2020

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Over the past two decades mounting evidence demonstrated that terrestrial weather significantly influences the dynamics and mean state of the thermosphere. While important progress has been made in understanding how this coupling occurs on hourly to daily time scales, large uncertainty still exists on this effect around intraseasonal (∼30-90 days) time scales. In this work, analyses of Thermosphere Ionosphere Mesosphere Energetics Dynamics-Sounding of the Atmosphere using Broadband Emission Radiometry temperatures near 110 km and Gravity field and steady-state Ocean Circulation Explorer cross-track winds near 260 km reveal prominent intraseasonal oscillations in the equatorial (±15 • ) zonal mean lower and middle thermosphere. Similar intraseasonal oscillations are found in the amplitudes of the diurnal eastward propagating tide with Zonal Wavenumber 3 (DE3) and the quasi-3-day ultrafast Kelvin wave, two prominent ultrafast tropical waves (UFTWs) excited by deep tropical tropospheric convection. Numerical simulations from the Specified-Dynamics Whole Atmosphere Community Climate Model eXtended demonstrate a significant connection between these UFTW and the Madden-Julian Oscillation (MJO). Compared to the boreal winter mean state, thermospheric UFTW amplitudes are larger (+5 to +12%) during MJO Phases 2-3 and smaller (−3% to −12%) during MJO Phases 6-8. Significant variations are also found with respect to the phase of the mesospheric semiannual oscillation (MSAO) and stratospheric quasi-biannual oscillation (SQBO), with larger (±12-16%) thermospheric amplitudes during westward MSAO/SQBO phase and smaller (±3-6%) amplitudes during eastward MSAO/SQBO phase, in accordance with theoretical interpretations. This study suggests that UFTW may play a large role in coupling tropospheric intraseasonal variability to the thermosphere, raising important questions including implications for the whole atmosphere system.

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Whole Atmosphere Coupling on Intraseasonal and Interseasonal Time Scales: A Potential Source of Increased Predictive Capability

Cited by 24 publications

References 178 publications

New Observations of Large‐Scale Waves Coupling With the Ionosphere Made by the GOLD Mission: Quasi‐16‐Day Wave Signatures in the F‐Region OI 135.6‐nm Nightglow During Sudden Stratospheric Warmings

New Observations of Large‐Scale Waves Coupling With the Ionosphere Made by the GOLD Mission: Quasi‐16‐Day Wave Signatures in the F‐Region OI 135.6‐nm Nightglow During Sudden Stratospheric Warmings

The Latitudinal Variation and Hemispheric Asymmetry of the Ionospheric Lunitidal Signatures in the American Sector During Major Sudden Stratospheric Warming Events

Preliminary Evidence of Madden‐Julian Oscillation Effects on Ultrafast Tropical Waves in the Thermosphere

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