共查询到20条相似文献,搜索用时 15 毫秒
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A. M. Zvyagintsev V. A. Zhuravleva N. S. Ivanova G. M. Kruchenitskii I. Yu. Shalygina 《Russian Meteorology and Hydrology》2007,32(8):547-550
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 from the national network of M-124 filter ozonometers, operated under the methodological control of the Main Geophysical Observatory (MGO). The quality control of the entire system is performed in real time based on the observations with the satellite OMI equipment. The basic results of TO observations for each month of the second quarter of 2007 and for a quarter as a whole are summarized. Results of regular surface ozone observations that have been carried out by CAO in the Moscow park zone since 1991 and that characterize the surface ozone state in Central Russia are also considered. 相似文献
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A. M. Zvyagintsev N. S. Ivanova I. V. Gubarchuk G. M. Kruchenitskii G. I. Kuznetsov 《Russian Meteorology and Hydrology》2012,37(3):210-215
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 fourth
quarter of 2011, for the quarter, and for the year as a whole. The features of the development of the spring Arctic and Antarctic
ozone anomalies in 2011 are described. The results of regular observations of surface ozone content in the Moscow region are
also generalized. 相似文献
4.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii V. P. Chelibanov S. N. Kotel’nikov V. A. Lapchenko 《Russian Meteorology and Hydrology》2013,38(2):134-139
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 fourth quarter of 2012, for the quarter as a whole, and for the whole year. Some results of regular observations of surface ozone content carried out at CAO and in other organizations in Russia and Ukraine are also considered. 相似文献
5.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii 《Russian Meteorology and Hydrology》2011,36(2):139-144
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 from the national network of filter ozonometers M-124 type under supervision of the Main Geophysical Observatory (MGO). The proper operation of the entire system is under an operational control from observations with the OMI satellite (US NASA) equipment. Basic TO observation data for each month of the fourth quarter of 2010, for the quarter and the year as a whole are generalized. Peculiarities of the Spring Antarctic Ozone Anomaly development in 2010 are described. Basic results of regular observations of the surface ozone and other minor atmospheric gas components in the Moscow region in 2010 are also under consideration. 相似文献
6.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii I. N. Kuznetsova E. A. Lezina 《Russian Meteorology and Hydrology》2008,33(2):130-134
The review is compiled based on the results of the operational of the Total Ozone (TO) Monitoring System in the CIS and Baltic countries, functioning in the operational regime at the Central Aerological Observatory (CAO). Basic TO observational data for each month of the fourth quarter of 2007 and for the year as a whole are summarized. Long-term TO changes at Russian stations are compared with similar changes at two foreign stations in the temperate latitudes of the Northern Hemisphere. Data on the spring Antarctic ozone anomaly of 2007 are considered. Results of regular observations of surface ozone concentration in the Moscow region are also presented. 相似文献
7.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii A. A. Artamonova Ya. O. Romanyuk 《Russian Meteorology and Hydrology》2010,35(2):152-157
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 from the national network of filter ozonometers, M-124 type under supervision of the Main Geophysical Observatory
(MGO). The proper operation of the entire system is under an operational control from observations with the OMI satellite
equipment (US NASA). Basic TO observation data for each month of the fourth quarter of 2009 and for the quarter and the year
as a whole are generalized. The data on the development of the Spring Antarctic Ozone Anomaly are presented. The results of
regular observations of the surface ozone in the Moscow region and in Kiev are considered. 相似文献
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A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii I. N. Kuznetsova V. A. Lapchenko 《Russian Meteorology and Hydrology》2014,39(5):356-359
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 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 first quarter of 2014 and for the quarter as a whole. The results of regular observations of surface ozone content carried out in the Moscow region and in the Crimea are generalized as well. 相似文献
10.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii I. N. Kuznetsova 《Russian Meteorology and Hydrology》2010,35(8):577-579
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 from the national network of M-124 filter ozonometers under supervision of the Main Geophysical Observatory (MGO);
the proper operation of the entire system is under operational control from observations with the OMI satellite (US NASA)
equipment. Basic TO observations data for each month of the second quarter of 2010 and for the quarter as a whole are generalized.
Basic results of regular observations of the surface ozone content in the Moscow region from the GPU Mosekomonitoring are
also considered. 相似文献
11.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii R. B. Zaripov I. N. Kuznetsova I. B. Konovalov 《Russian Meteorology and Hydrology》2011,36(9):638-641
The review is compiled based on 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 functioning of the entire system is under operational control based on observations obtained from the OMI satellite
equipment (NASA, the United States). The basic TO observation data for each month of the second quarter of 2011 and for the
quarter as a whole are generalized. The results are also considered of regular surface ozone observations having been conducted
by the CAO in the forest area of Moscow since 1991 that characterize the surface ozone state in the central Russian region. 相似文献
12.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii I. V. Gubarchuk 《Russian Meteorology and Hydrology》2012,37(5):354-356
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 first quarter of 2012 and for the quarter as a whole. 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 the central Russian region are also considered. 相似文献
13.
A. M. Zvyagintsev N. S. Ivanova V. A. Zhuravleva G. M. Kruchenitskii I. Yu. Shalygina 《Russian Meteorology and Hydrology》2008,33(5):335-339
The review is compiled based on the results of the operation of the Total Ozone (TO) Monitoring System in the CIS countries, functioning in the operational regime at the Central Aerological Observatory (CAO). The monitoring system uses the data from the national network of filter ozonometers, type M-124; the proper operation of the system is confirmed by the results of comparison with the TO fields obtained from observations with the OMI satellite (US NASA) equipment. The TO observation data for each month of the first quarter of 2008 and for a quarter as a whole are generalized. Results of regular surface ozone observations that have been carried out by the CAO in the Moscow park zone since 1991 and that characterize the surface ozone state in the Moscow region are also considered. 相似文献
14.
A. M. Zvyagintsev N. S. Ivanova O. B. Blyum S. N. Kotel’nikov G. M. Kruchenitskii I. N. Kuznetsova V. A. Lapchenko 《Russian Meteorology and Hydrology》2010,35(11):785-789
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 from the national network of M-124 filter ozonometers under supervision of the Main Geophysical Observatory (MGO);
the proper operation of the entire system is under an operational control from observations with the OMI satellite (US NASA)
equipment. Basic TO observations data for each month of the third quarter of 2010 and for the quarter as a whole are generalized.
Basic results of regular observations of the surface ozone content in Moscow and in other regions of Russia and the Ukraine
characterizing to a great extent the surface air quality in these regions are under consideration. 相似文献
15.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii I. N. Kuznetsova 《Russian Meteorology and Hydrology》2013,38(8):584-586
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 second quarter of 2013 and for the quarter as a whole. The results of regular observations of surface ozone content carried out in other organizations in Russia are also considered. 相似文献
16.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii L. B. Anan’ev M. I. Nakhaev 《Russian Meteorology and Hydrology》2011,36(6):420-425
The review is compiled based on 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 functioning of the entire system is under operational control based on observations obtained from the OMI satellite
equipment (NASA, the United States). The basic TO observation data for each month of the first quarter of 2011 and for the
quarter as a whole are generalized. Preliminary estimates of a large ozone anomaly in the Russian Arctic region are under
consideration. The information about the surface ozone observations in the central Russian region is also considered. 相似文献
17.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii I. N. Kuznetsova V. A. Lapchenko 《Russian Meteorology and Hydrology》2014,39(2):132-136
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. 相似文献
18.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii I. N. Kuznetsova E. A. Lezina Ya. O. Romanyuk 《Russian Meteorology and Hydrology》2009,34(3):187-193
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. 相似文献
19.
A. M. Zvyagintsev N. S. Ivanova I. N. Kuznetsova V. A. Lapchenko 《Russian Meteorology and Hydrology》2017,42(2):135-140
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. 相似文献
20.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii S. N. Kotel’nikov G. I. Kuznetsov 《Russian Meteorology and Hydrology》2012,37(8):570-573
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 first quarter of 2012 and for the quarter as a whole. Some results of regular observations of surface ozone content carried out at different organizations in Russia are also considered. 相似文献