Stretching rates and equivalent length near the tropopause

RK Scott*, EF Shuckburgh, JP Cammas, B Legras

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

20 Citations (Scopus)

Abstract

[1] Diagnostics of mixing in the upper troposphere/lower stratosphere region reveal interesting seasonal and interannual variability and illustrate how the subtropical tropopause can be identified with a region of minimum mixing, a partial barrier to the transport of air between the troposphere and stratosphere. Both the strength and the location of this barrier show substantial seasonal variability, with a stronger barrier and weaker mixing observed during winter. The interannual variability of the mixing intensity near the tropopause on the 350 K isentropic surface suggests a correlation with the phase of the El Nino-Southern Oscillation, with weaker mixing occurring during strong El Nino years. The diagnostics are based on the analyses and reanalyses from the European Centre for Medium-Range Weather Forecasts over the 21 year period 1979-2000 and include the exponential stretching rates of material contours and Nakamura's [1996] modified Lagrangian mean effective diffusivity/equivalent length. As well as providing information about the spatial and temporal distribution of mixing intensity, the diagnostics also indicate sensitivity to changes in the analyses/reanalyses data sets. In particular, a stronger seasonal cycle and greater interannual variability is found in the more recent (1994-2000) analyses than in the earlier (1979-1993) reanalyses.

Original languageEnglish
Article number4394
Number of pages12
JournalJournal of geophysical research-Atmospheres
Volume108
Issue numberD13
DOIs
Publication statusPublished - 12 Jul 2003

Keywords

  • upper troposhere/lower stratosphere (UTLS)
  • tropopause
  • mixing
  • contour advection
  • equivalent length
  • interannual variability
  • STRATOSPHERIC POLAR VORTICES
  • EFFECTIVE DIFFUSIVITY
  • VARIATIONAL ASSIMILATION
  • SUBTROPICAL TROPOPAUSE
  • CONTOUR ADVECTION
  • CHAOTIC ADVECTION
  • UPPER TROPOSPHERE
  • WAVE BREAKING
  • TRANSPORT
  • MODEL

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