Trends and annual cycles in soundings of Arctic tropospheric ozone

Ozone soundings from nine Nordic stations have been homogenized and interpolated to standard pressure levels. The different stations have very different data coverage; the longest period with data is from the end of the 1980s to 2014. At each pressure level the homogenized ozone time series have bee...

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Bibliographic Details
Published in:Atmospheric Chemistry and Physics
Main Authors: Christiansen, Bo, Jepsen, Nis, Kivi, Rigel, Hansen, Georg, Larsen, Niels, Korsholm, Ulrik Smith
Format: Text
Language:English
Published: 2018
Subjects:
Arctic
Eureka
Ny-Ålesund
Sodankylä
Ørland
Ny Ålesund
Scoresbysund
Online Access:https://doi.org/10.5194/acp-17-9347-2017
https://www.atmos-chem-phys.net/17/9347/2017/
Description
Summary:Ozone soundings from nine Nordic stations have been homogenized and interpolated to standard pressure levels. The different stations have very different data coverage; the longest period with data is from the end of the 1980s to 2014. At each pressure level the homogenized ozone time series have been analysed with a model that includes both low-frequency variability in the form of a polynomial, an annual cycle with harmonics, the possibility for low-frequency variability in the annual amplitude and phasing, and either white noise or noise given by a first-order autoregressive process. The fitting of the parameters is performed with a Bayesian approach not only giving the mean values but also confidence intervals. The results show that all stations agree on a well-defined annual cycle in the free troposphere with a relatively confined maximum in the early summer. Regarding the low-frequency variability, it is found that Scoresbysund, Ny Ålesund, Sodankylä, Eureka, and Ørland show similar, significant signals with a maximum near 2005 followed by a decrease. This change is characteristic for all pressure levels in the free troposphere. A significant change in the annual cycle was found for Ny Ålesund, Scoresbysund, and Sodankylä. The changes at these stations are in agreement with the interpretation that the early summer maximum is appearing earlier in the year. The results are shown to be robust to the different settings of the model parameters such as the order of the polynomial, number of harmonics in the annual cycle, and the type of noise.

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