Abstract
The stratosphere and its dynamics are a very important part of atmospheric circulation. We need to analyze its climatology, as well as long-term trends. A long-term trend study needs homogenous datasets without significant artificial discontinuities. The analysis is based on the two newest released reanalyses, Modern Era-Retrospective Analysis (MERRA2) and European Center for Medium-Range Weather Forecast Reanalysis (ERA5). The aim of this study is to detect discontinuities in the temperature time series from the above reanalyses with the help of the Pettitt homogeneity test for pressure layers above 500 hPa up to 1 hPa in January and February, and show a comparison of temperature trends from the studied reanalyses and GPS radio occultation (GPS RO). We search for individual grid points where these discontinuities occur, and also for the years when they occur (geographical and temporal distribution). As expected, the study confirms better results for the Northern Hemisphere due to the denser data coverage. A high number of grid points with jumps on the Southern Hemisphere is found, especially at higher pressure levels (from 50 hPa). The spatial and vertical distribution of discontinuities is also presented. The vertical distribution reveals the reduction of the number of jumps around 10 hPa, especially for ERA5 reanalysis. The results show that ERA5 has significantly less jumps than MERRA2. We also study temperature trends from reanalyses and GPS RO and our analysis shows that the agreement between the reanalyses and observations are very good for the period 2006–2018.
Highlights
The stratosphere is one of the key parts of the atmosphere
We study temperature trends from reanalyses and global positioning system (GPS) radio occultation (GPS RO) and our analysis shows that the agreement between the reanalyses and observations are very good for the period 2006–2018
For MERRA2, The results for 10, 50, 100 hPa are very similaralmost for bothdisappeared reanalyses if(only we focus on areas the allin cases
Summary
The stratosphere is one of the key parts of the atmosphere. One of the most important parameters is temperature, which is interactively connected with radiation, chemistry, and the dynamics of the whole middle atmosphere (stratosphere and mesosphere). Temperature trends are a key parameter of changes in climate. We focus on the winter condition climatology on the Northern Hemisphere, homogeneity analysis, trends in reanalysis, and observations. Studying the temperature field from observations is a basic diagnostic tool for evaluating climate models or reanalysis One of the biggest issues with the analysis and validation of the temperature in the middle atmosphere is the uncertainties and homogeneity of observational datasets (e.g., [9])
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