The first twenty years (1994-2014) of ozone soundings from Rapa Nui (27°S, 109°W, 51 m a.s.l.)

Ozone (O 3 ) soundings have been performed on Easter Island or Rapa Nui (27 °S, 109 °W, 51 m a.s.l.) since 1994 as part of the Global Atmospheric Watch Programme of the World Meteorological Organization. In this work, we analyse 260 soundings compiled over the period 1994-2014, and make the data ava...

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Bibliographic Details
Published in:Tellus. Series B, Chemical and physical meteorology Chemical and physical meteorology, 2016-01, Vol.68 (1), p.29484-16
Main Authors: Gallardo, Laura, HenrÍquez, Adolfo, Thompson, Anne M., Rondanelli, Roberto, Carrasco, Jorge, Orfanoz-Cheuquelaf, Andrea, Velásquez, Patricio
Format: Article
Language:English
Subjects:
Air masses
Climate
Climate change
Climatology
Cultural heritage
Data
Datasets
Environmental impact
Global Atmospheric Watch
Humidity
Jet stream
Jet streams (meteorology)
Organizations
Ozone
Ozone sondes
Position (location)
Profiles
Rapa Nui
Remote sensing
Satellites
self-organizing maps
Soundings
Spaceborne remote sensing
Spring
Statistical analysis
Statistical methods
Stratosphere
Stream pollution
Subtropical jet stream
Summer
Tropical climate
Tropospheric ozone
Troughs
Weather
Winter
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Summary:Ozone (O 3 ) soundings have been performed on Easter Island or Rapa Nui (27 °S, 109 °W, 51 m a.s.l.) since 1994 as part of the Global Atmospheric Watch Programme of the World Meteorological Organization. In this work, we analyse 260 soundings compiled over the period 1994-2014, and make the data available for the international community. We characterise O 3 profiles over this remote area of the Pacific by means of statistical analyses that consider, on the one hand, a traditional climatology that describes the data in terms of seasonal cycles based on monthly averages and, on the other hand, a process-oriented analysis based on self-organising maps. Our analyses show the influence of both tropical and subtropical/mid-latitude air masses at Rapa Nui. The former occurs in summer and fall when convective conditions prevail, and the latter in late winter and spring when subsiding conditions are recurrent. The occurrence of stratospheric intrusions in late winter and spring in connection with deep troughs and the presence of the subtropical jet stream is also apparent in the data set. The tropospheric ozone column is in good agreement with the corresponding data derived from satellites but with a systematic overestimate of summer and fall values. There is evidence of an upward trend in ozone near the surface, which suggests the impact of local pollution. We look forward to an enhancement of the Rapa Nui observing site, given its location that offers a privileged position to observe climate change over the sparsely sampled and vast South Pacific Ocean.
ISSN:0280-6509
1600-0889
DOI:10.3402/tellusb.v68.29484