Intensive Variability Extraction

DOI Web Site 13 References Open Access
  • Kohyama Tsubasa
    Department of Information Sciences, Ochanomizu University
  • Miura Hiroaki
    Department of Earth and Planetary Science, The University of Tokyo
  • Kido Shoichiro
    Application Laboratory, Japan Agency for Marine-Earth Science and Technology

Abstract

<p>A modified version of the principal component analysis (PCA) is introduced by reconsidering statistical degrees of freedom in spatial dimensions based on spatial auto-correlations. In the conventional PCA, data points that represent equal areas are assumed to have equal amount of information. In our new method, the intensive variability extraction (IVE), data points correlated with less other data points are weighted more before performing PCA. Hence, variability with independent information is emphasized, even if the variability is confined to small areas.</p><p>Sea surface temperature (SST) data at each grid in the tropics are shown to have fewer spatial statistical degrees of freedom than that in the extratropics. Tropical SSTs exhibit covariability with large areas, because oceanic equatorial waves and atmospheric gravity waves share temperature information with surrounding areas. As to the extratropics, grids along the western boundaries of oceanic basins are more independent than those in the east, following dynamical requirement of the Earth's rotation.</p><p>Using IVE, climate modes that involve interscale covariability are extracted. IVE performed for the Pan-Pacific SSTs extracts the Pacific Decadal Oscillation assuming the aforementioned a priori dynamical expectation. Using extratropical SSTs, it is demonstrated that IVE detects synchronicity of small-scale variability between distant narrow regions.</p>

Journal

  • SOLA

    SOLA 17 (0), 246-250, 2021

    Meteorological Society of Japan

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