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Orographically forced oscillations in a dynamical model of the Martian atmosphere (1992)

Keppenne, Christian L.

In: Other Sources

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Publication Date: 2011-08-24

Description: The barotropic, orographically-forced intraseasonal oscillations of the Martian atmosphere are presently analyzed by means of a single-layer shallow-water model. An oscillation with 85-Martian day mean period is noted in a time-series of the model global atmospheric angular momentum, and its robustness is verified. The oscillation has a standing zonal component whose centers of action are located upstream and downstream of salient orographic features. A resemblance arises between the oscillation's northern-hemisphere features and those of the terrestrial 40-day oscillation.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Icarus (ISSN 0019-1035); 100; 2; p. 598-607.

Format: text

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Detection of an ENSO Signal in Seasonal Length-of-Day Variations (1996)

Gross, Richard S. ; Marcus, Steven L. ; Dickey, Jean O. ; [et al.]

In: Other Sources

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Publication Date: 2019-08-16

Description: Conservation of angular momentum dictates that as the wind-driven axial atmospheric angular momentum changes, so will the length-of-day (LOD). In particular, as the strength of the seasonal zonal winds change, so should the strength of the seasonal LOD signals. Here, observed changes in the strengths of the annual and semiannual LOD signals during 1963-1991 are analyzed and shown to be both significantly correlated (at the 99% significance level) with the Southern Oscillation Index (SOI), and to exhibit trends of comparable magnitude but opposite signs. This reported correlation between the SOI and changes in the amplitude of the seasonal LOD signals demonstrates a linkage between seasonal LOD (and hence seasonal zonal wind) variability and the El Nino / Southern Oscillation (ENSO) phenomenon. Furthermore, this study suggests that observed variations in the amplitudes of the seasonal LOD signals can be used to study changes in the strengths of the seasonal atmospheric zonal winds on interannual to decadal and longer time scales.

Keywords: Geophysics

Type: Paper 96GL03260 , Geophysical Research Letters (ISSN 0094-8534); 23; 23; 3373-3376

Format: text

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Design and Implementation of a Parallel Multivariate Ensemble Kalman Filter for the Poseidon Ocean General Circulation Model (2001)

Koblinsky, Chester ; Keppenne, Christian L. ; Rienecker, Michele M.

In: CASI

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Publication Date: 2019-07-10

Description: A multivariate ensemble Kalman filter (MvEnKF) implemented on a massively parallel computer architecture has been implemented for the Poseidon ocean circulation model and tested with a Pacific Basin model configuration. There are about two million prognostic state-vector variables. Parallelism for the data assimilation step is achieved by regionalization of the background-error covariances that are calculated from the phase-space distribution of the ensemble. Each processing element (PE) collects elements of a matrix measurement functional from nearby PEs. To avoid the introduction of spurious long-range covariances associated with finite ensemble sizes, the background-error covariances are given compact support by means of a Hadamard (element by element) product with a three-dimensional canonical correlation function. The methodology and the MvEnKF configuration are discussed. It is shown that the regionalization of the background covariances; has a negligible impact on the quality of the analyses. The parallel algorithm is very efficient for large numbers of observations but does not scale well beyond 100 PEs at the current model resolution. On a platform with distributed memory, memory rather than speed is the limiting factor.

Keywords: Geophysics

Type: NASA/TM-2001-104606/VOL21 , Rept-2001-03503-0/VOL21 , NAS 1.15:104606/VOL21

Format: application/pdf

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