Atmosphere (Jan 2019)

Distribution of Air Temperature Multifractal Characteristics Over Greece

  • Nikolaos Kalamaras,
  • Chris G. Tzanis,
  • Despina Deligiorgi,
  • Kostas Philippopoulos,
  • Ioannis Koutsogiannis

DOI
https://doi.org/10.3390/atmos10020045
Journal volume & issue
Vol. 10, no. 2
p. 45

Abstract

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In this study, Multifractal Detrended Fluctuation Analysis (MF-DFA) is applied to daily temperature time series (mean, maximum and minimum values) from 22 Greek meteorological stations with the purpose of examining firstly their scaling behavior and then checking if there are any differences in their multifractal characteristics. The results showed that the behavior is the same at almost all stations, i.e., time series are positive long-term correlated and their multifractal structure is insensitive to local fluctuations with large magnitude. Moreover, this study deals with the spatial distribution of the main characteristics of multifractal (singularity) spectrum: the dominant Hurst exponent, the width of the spectrum, the asymmetry and the truncation type of the spectrum. The spatial distributions are discussed in terms of possible effects from various climatic features. In general, local atmospheric circulation and weather conditions are found to affect the shape of the spectrum and the corresponding spatial distributions. Furthermore, the intercorrelation of the main multifractal spectrum parameters resulted in a well-defined group of stations sharing similar multifractal characteristics. The results indicate the usefulness of the non-linear analysis in climate research due to the complex interactions among the natural processes.

Keywords