Evaluation of a regional reanalysis and ERA-interim over East Asia using in situ observations during 2013-14

Eun Gyeong Yang, Hyun Mee Kim

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In this study, the East Asia Regional Reanalysis (EARR) is developed for the period 2013-14 and characteristics of the EARR are examined in comparison with ERA-Interim (ERA-I) reanalysis. The EARR is based on the Unified Model with 12-km horizontal resolution, which has been an operational numerical weather prediction model at the Korea Meteorological Administration since being adopted from the Met Office in 2011. Relative to the ERA-I, in terms of skill scores, the EARR performance for wind, temperature, relative humidity, and geopotential height improves except for mean sea level pressure, the lower-troposphere geopotential height, and the upper-air relative humidity. In a similar way, RMSEs of the EARR are smaller than those of ERA-I for wind, temperature, and relative humidity, except for the upper-air meridional wind and the upper-air relative humidity in January. With respect to the near-surface variables, the triple collocation analysis and the correlation coefficients confirm that EARR provides a much improved representation when compared with ERA-I. In addition, EARR reproduces the finescale features of near-surface variables in greater detail than ERA-I does, and the kinetic energy (KE) spectra of EARR agree more with the canonical atmospheric KE spectra than do the ERA-I KE spectra. On the basis of the fractions skill score, the near-surface wind of EARR is statistically significantly better simulated than that of ERA-I for all thresholds, except for the higher threshold at smaller spatial scales. Therefore, although special care needs to be taken when using the upper-air relative humidity from EARR, the near-surface variables of the EARR that were developed are found to be more accurate than those of ERA-I.

Original languageEnglish
Pages (from-to)2821-2844
Number of pages24
JournalJournal of Applied Meteorology and Climatology
Issue number10
Publication statusPublished - 2017 Oct 1

Bibliographical note

Publisher Copyright:
© 2017 American Meteorological Society.

All Science Journal Classification (ASJC) codes

  • Atmospheric Science


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