Autocorrelation Functions Computed from Daily 500 mb Geopotential Height Analyses

Juhani Rinne Department of Meteorology, University of Helsinki, Finland

Search for other papers by Juhani Rinne in
Current site
Google Scholar
PubMed
Close
and
Simo Järvenoja Department of Meteorology, University of Helsinki, Finland

Search for other papers by Simo Järvenoja in
Current site
Google Scholar
PubMed
Close
Restricted access

We are aware of a technical issue preventing figures and tables from showing in some newly published articles in the full-text HTML view.
While we are resolving the problem, please use the online PDF version of these articles to view figures and tables.

Abstract

A method of computing autocorrelation fields with the aid of empirical orthogonal functions (EOF) is applied. The isotropic parts of the fields are separated, and a one-parameter model of the isotropic autocorrelation field is constructed. The approximation is compared with the Bessel representations discussed by others. The present model requires fewer parameters (one as against four) and gives a more realistic representation at greater distances. In other respects, the results are quite similar. At midlatitudes, the present model is a good approximation of the autocorrelation fields. Over the Himalayas, the fields are exceptionally anisotropic. The results substantiate the importance of the Himalayas in teleconnectivity.

Abstract

A method of computing autocorrelation fields with the aid of empirical orthogonal functions (EOF) is applied. The isotropic parts of the fields are separated, and a one-parameter model of the isotropic autocorrelation field is constructed. The approximation is compared with the Bessel representations discussed by others. The present model requires fewer parameters (one as against four) and gives a more realistic representation at greater distances. In other respects, the results are quite similar. At midlatitudes, the present model is a good approximation of the autocorrelation fields. Over the Himalayas, the fields are exceptionally anisotropic. The results substantiate the importance of the Himalayas in teleconnectivity.

Save