Ozone Content over the Russian Federation in the First Quarter of 2018

The review is based on the operation results of the system that monitors the total ozone (TO) in the CIS and Baltic countries and functions in the operational mode at the Central Aerological Observatory (CAO). The monitoring system uses the data from the national network equipped with M-124 filter ozonometers working under the methodological supervision of the Main Geophysical Observatory. The quality of the system functioning is operationally controlled in CAO by the comparison with the observations obtained from the OMI satellite equipment (NASA, USA). Basic TO observation data are generalized for each month of the first quarter of 2018 and for the first quarter. The data of routine observations of surface ozone values in the Moscow region and Crimea are also considered.     

Ozone Content over the Russian Federation in the Third Quarter of 2018

The review is compiled on the basis of the results of the operation of the total ozone (TO) monitoring system that covers Russia and adjoining territories and functions in the operational mode at the Central Aerological Observatory (CAO). The monitoring system uses data from the national network equipped with M-124 filter ozonometers being under the methodological supervision of the Main Geophysical Observatory. The quality of the system functioning is operationally controlled based on the OMI satellite equipment observations (NASA, USA). Basic TO observation data are generalized for each month of the third quarter of 2018 and for the third quarter as a whole. The data of routine observations of surface ozone values in the Moscow region, Crimea, and on the Kola Peninsula are also considered.     

Ozone Content over the Russian Federation in 2017

The review is based on the operation results of the system for total ozone (TO) monitoring in the CIS and Baltic countries functioning in the operational regime at the Central Aerological Observatory (CAO). The monitoring system uses data from the national network equipped with M-124 filter ozonometers being under the methodological supervision of the Main Geophysical Observatory. The quality of the entire system functioning is operationally controlled in CAO through the comparison with the observations obtained from the OMI satellite equipment (NASA, USA). Basic TO observation data are generalized for each month of the fourth quarter of 2017, for the whole fourth quarter, and for the whole year. The data of routine observations of surface ozone values in the Moscow region and Crimea are also considered.     

Ozone Content over the Russian Federation in 2019

Russian Meteorology and Hydrology - The review is compiled on the basis of the results of operation of the total ozone (TO) monitoring system in Russia and neighboring countries functioning in...     

Ozone Content over the Russian Federation in 2015

The review is compiled on the basis of the results provided by the system of total ozone (TO) monitoring in the CIS and Baltic countries that functions in the operational regime at the Central Aerological Observatory (CAO). The monitoring system uses data from the national network of M-124 filter ozonometers being under the methodological supervision ofthe Main Geophysical Observatory. The functioning of the entire system is under operational control based on the observations obtained from the OMI satellite equipment (NASA, USA). Basic TO observation data are generalized for each month of the fourth quarter of 2015, for the fourth quarter, and for the year as a whole. The results of regul ar observations of surface ozone content carried out in the Moscow region and Crimea are also provided.     

Ozone content over the Russian Federation in 2013

The review is compiled on the basis of the results of the operation of the total ozone (TO) monitoring in the CIS and Baltic countries functioning in the operational regime at the Central Aerological Observatory (CAO). The monitoring system uses the data from the national network of M-124 filter ozonometers under the methodological supervision of the Main Geophysical Observatory. The quality of the functioning of the entire system is under operational control based on the observations obtained from the OMI satellite equipment (NASA, the United States). The basic TO observation data are generalized for each month of the fourth quarter of 2013, for the quarter as a whole, and for the whole year. Some results of regular observations of surface ozone content carried out in Moscow region and Crimea are also considered.     

Ozone content over the Russian Federation in 2008

Areview is compiled based on the results of the system of monitoring total ozone (TO) over the CIS and Baltic countries that is operated in real time at the Central Aerological Observatory (CAO). The TO monitoring system uses the data from the national M-124 filter ozonometer network operated under the methodological guidance of the Main Geophysical Observatory. The performance of the system as a whole is operationally verified against the OMI satellite (US NASA) observations. The main TO observational data are summarized for each month of the fourth quarter of 2008, for a quarter, and a year as a whole. Data on the Spring Antarctic Ozone Anomaly in 2008 are presented. Results of regular surface ozone observations in the Moscow region and in Kiev are also considered.     

Ozone content over the Russian Federation in 2016

The review is based on the results of the operation of the total ozone (TO) monitoring system in the CIS and Baltic countries. The system is functioning in the operational regime at the Central Aerological Observatory (CAO) under methodological supervision of the Main Geophysical Observatory and uses the data from the national network equipped with M-124 filter ozonometers. The quality of the entire system functioning is under operational control based on the observations obtained from the OMI satellite equipment (NASA, the United States). The basic TO observation data are generalized for each month of the fourth quarter of 2016, for the fourth quarter as a whole, and for the whole year. The results of regular observations of surface ozone content carried out in the Moscow region and Crimea are also considered.     

Ozone content over the Russian Federation in the third quarter of 2013

The review is compiled on the basis of the results of monitoring the total ozone (TO) in the CIS and Baltic countries that functions in the operational regime at the Central Aerological Observatory (CAO). The monitoring system uses the data from the national network with M-124 filter ozonometers under methodological supervision of the Main Geophysical Observatory. The quality of the functioning of the entire system is under operational control based on the observations obtained from the OMI satellite equipment (NASA, the United States). The basic TO observation data are generalized for each month of the first quarter of 2013 and for the quarter as a whole. The data on the development of the Antarctic spring ozone anomaly in August and September 2013 are presented as well as the results of regular observations of the surface ozone content carried out in Moscow region by GPBU Mosekomonitoring and CAO.     

Ozone content over the Russian Federation in the second quarter of 2017

The review is compiled on the basis ofthe operation ofthe system that monitors total ozone (TO) in the CIS and Baltic countries and functions in the operational regime at the Central Aerological Observatory (CAO). The monitoring system uses the data from the national network equipped with M-124 filter ozonometers under the methodological supervision ofthe Main Geophysical Observatory. The quality of the functioning of the entire system is under the operational control based on the observations obtained from the OMI satellite equipment (NASA, USA). The basic TO observation data are generalized for every month of the second quarter of 2017 and for the quarter as a whole. The data of observations of surface ozone content carried out in the Moscow region and on the Black Sea coast of Crimea are also briefly presented.     

Ozone content over the Russian Federation in the first quarter of 2016

The review is compiled on the basis ofthe operation ofthe total ozone (TO) monitoring system of the CIS and Baltic countries that functions in the operational regime at the Central Aerological Observatory. The monitoring system uses the data from the national network equipped with M-124 filter ozonometers under methodological supervision of the Main Geophysical Observatory. The quality of the functioning of the entire system is under operational control based on the observations obtained from the OMI satellite equipment (NASA, the United States). The basic TO observation data are generalized for each month of the first quarter of 2016 and for the quarter as a whole. The data of routine observations of surface ozone content carried out in the Moscow region and Crimea are also presented.     

Ozone content over the Russian Federation in the third quarter of 2016

The review is compiled on the basis of the operation of the total ozone (TO) monitoring system in the CIS and Baltic countries that functions in the operational regime at the Central Aerological Observatory. The monitoring system uses the data from the national network equipped with M-124 filter ozonometers under methodological supervision of the Main Geophysical Observatory. The quality of the functioning of the entire system is under the operational control based on the observations obtained from the OMI satellite equipment (NASA, the United States). The basic TO observation data are generalized for each month of the third quarter of 2016 and for the quarter as a whole. The data of routine observations of surface ozone content carried out in the Moscow region and Crimea are also presented.     

Ozone content over the Russian Federation in the third quarter of 2011

The review is compiled on the basis of the results of the operation of the total ozone (TO) monitoring in the CIS and Baltic countries functioning in the operational regime at the Central Aerological Observatory (CAO). The monitoring system uses the data from the national network with M-124 filter ozonometers under methodological supervision of the Main Geophysical Observatory. The quality of the functioning of the entire system is under operational control based on the observations obtained from the OMI satellite equipment (NASA, the United States). The basic TO observation data are generalized for each month of the third quarter of 2011 and for the quarter as a whole. Presented are also the results of regular observations of surface ozone content carried out at CAO in the woodland-park zone of Moscow since 1991 and characterizing the ozone state in the surface layer in Central Russian region.     

Ozone content over the Russian Federation in the first quarter of 2009

The review is compiled based on the results of the operation of the total ozone (TO) monitoring system in the CIS and Baltic countries, functioning in the operational regime at the Central Aerological Observatory (CAO). The TO monitoring system uses the data from the national network of filter ozonometers type M-124 under control of the Main Geophysical Observatory (MGO). The proper operation of the entire system is under an operational control from observation with the OMI satellite (US NASA) equipment. Basic TO observations data for each month of the first quarter of 2009 and for a quarter as a whole are generalized. Results of regular observations of the surface ozone content in the Moscow region are also presented.     

Ozone content over the Russian Federation in the second quarter of 2016

The review is compiled on the basis of the operation of the total ozone (TO) monitoring system in the CIS and Baltic countries that functions in the operational regime at the Central Aerological Observatory. The monitoring system uses the data from the national network equipped with M-124 filter ozonometers under methodological supervision of the Main Geophysical Observatory. The quality of the functioning of the entire system is under the operational control based on the observations obtained from the OMI satellite equipment (NASA, the United States). The basic TO observation data are generalized for each month of the second quarter of 2016 and for the quarter as a whole. The data of routine observations of surface ozone content carried out in the Moscow region and Crimea are also presented.     

Ozone content over the Russian Federation in the first quarter of 2017

The review is based on the results of the operation of the total ozone (TO) monitoring system in the CIS countries. The system is functioning in the operational regime at the Central Aerological Observatory (CAO) and uses the data from the national network equipped with M-124 filter ozonometers being under the methodological supervision of the Main Geophysical Observatory. The quality of the entire system functioning is under operational control based on the observations obtained from neighboring countries and the OMI satellite equipment (NASA, USA). Basic TO observation data are generalized for each month of the first quarter of 2017 and for the first quarter. Data on surface ozone values in the Moscow region and Crimea are also provided.     

Ozone content over the Russian Federation in the third quarter of 2008

The review is compiled based on the results of the operation of the Total Ozone (TO) Monitoring System in the CIS and Baltic countries, functioning in the operational regime at the Central Aerological Observatory (CAO). The monitoring system uses the data obtained from the national network of filter ozonometers, M-124 type, which is under methodological supervision of the Main Geophysical Observatory; proper operation of the system is under operational control based on observations obtained from the OMI satellite equipment (U.S. NASA). The basic TO observation data for each month of the third quarter of 2008 and for a whole quarter are generalized. Results of regular surface ozone observations, carried out by the CAO in the Moscow park zone that largely characterize the air quality in the surface layer of the Moscow region in a warm season are also considered.