1970
DOI: 10.1175/1520-0469(1970)027<0359:tkeotl>2.0.co;2
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The Kinetic Energy of the Large-Scale Atmospheric Motion in Wavenumber-Frequency Space: I. Northern Hemisphere

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Cited by 53 publications
(20 citation statements)
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“…As a method of investigating the energy distribution, the energy spectrum, i.e., energy distribution in the wavenumber space of the atmosphere, often has been investigated. It has been pointed out in numerous investigations, that the energy spectrum is proportional to the À3 power of the wavenumber, in the wavenumber region expressing large-scale motions of the atmosphere (e.g., Saltzman and Fleischer 1962;Wiin-Nielsen 1966;Kao and Wendell 1970;Julian et al 1970;Tanaka 1985;Nastrom and Gage 1985). This observational fact is often explained as an exposure of the feature of two-dimensional turbulence, based on the quasi two-dimensionality of the largescale motions of the atmosphere (Charney 1971).…”
Section: Introductionmentioning
confidence: 98%
“…As a method of investigating the energy distribution, the energy spectrum, i.e., energy distribution in the wavenumber space of the atmosphere, often has been investigated. It has been pointed out in numerous investigations, that the energy spectrum is proportional to the À3 power of the wavenumber, in the wavenumber region expressing large-scale motions of the atmosphere (e.g., Saltzman and Fleischer 1962;Wiin-Nielsen 1966;Kao and Wendell 1970;Julian et al 1970;Tanaka 1985;Nastrom and Gage 1985). This observational fact is often explained as an exposure of the feature of two-dimensional turbulence, based on the quasi two-dimensionality of the largescale motions of the atmosphere (Charney 1971).…”
Section: Introductionmentioning
confidence: 98%
“…The vertical spectrum of the horizontal wind at mesoscale also has a k -8 region that extends to scales of the order of 100 meters [Endlich et al, 1969]. Horizontal spectra of temperature and wind also fall off from synoptic scale as k -• [Kao and Wendell, 1970;Kao, 1970], although the horizontal dimensions of systems of comparable variance are approximately 10" times the vertical dimension. As discussed by Kao [1970], the k -• spectrum is believed to be characteristic of the domain of horizontal eddies, and, since the typical dimensions of the larger unstable layers lie within the k -• region, the origin of temperature irregularities at this scale should be sought in the effects of organized motion at this scale rather than in turbulent mixing.…”
Section: Discussionmentioning
confidence: 99%
“…In the space domain this 'inverse cascade' to lower k implies that the velocity (and density) turbulence will spread into the largest volume available in the system. Evidence for this dual cascade in two-dimensional turbulence has been found in the earth's atmosphere [Kao and Wendell, 1970] and magnetosphere [Kelley and Kintner, 1978]. Kelley and Ott [1978] suggest that the vortices emitted by upwelling bubbles not only form a wake but tend to fill the between-bubble regions (i.e., in an east-west direction) with velocity and density irregularities via this cascade to lower k values.…”
Section: ' • Bubble the Development Time Of L0 4 S Determined By ! Vementioning
confidence: 94%