Publishing House SB RAS:

Publishing House SB RAS:

Address of the Publishing House SB RAS:
Morskoy pr. 2, 630090 Novosibirsk, Russia



Name:
Authors:
Keywords:
Abstract:
   

Atmospheric and Oceanic Optics

2024

Number: 12

4911.
Calculations of SO2 line shift coefficients by CO2 pressure: the v1 + v3 band

T.A. Nevzorova, A.S. Dudaryonok, N.N. Lavrentieva
V.E. Zuev Institute of Atmospheric Optics of Siberian Branch of the Russian Academy of Science, Tomsk, Russia
Keywords: line profile parameters, line shift, sulfur dioxide, carbon dioxide

Abstract >>
The SO2 - CO2 line profile parameters are important to study the carbon dioxide atmospheres of terrestrial planets (Venus, Mars) and exoplanets. The carbon-dioxide shift coefficients of sulfur dioxide lines in ν1 + ν3 band are calculated at room temperature; the rotational quantum numbers J varies from 0 to 100 and Ka varies from 0 to 20. Calculations were made using a semi-empirical method, which includes a correction factor with adjustable parameters depending on the rotational quantum numbers. The calculated shift coefficients are in a good agreement with few published data.



Number: 12

4912.
Continuum absorption in the wings of the rotational CO band in mixture with Argon

O.B. Rodimova
V.E. Zuev Institute of Atmospheric Optics of Siberian Branch of the Russian Academy of Science, Tomsk, Russia
Keywords: IR absorption, carbon monoxide, broadening by argon, line wing

Abstract >>
Absorption by carbon monoxide in a mixture with argon is considered on the basis of the asymptotic line wing theory. Line contour parameters, related to the quantum potential of intermolecular interaction describing absorption in the short-wavelength wing of the CO rotational band have been found. This contour is used for describing continuum absorption within the longwave wing of the CO rotational band, leading to agreement with experiment. Thus, the line contour obtained can be applied for estimation of the CO continuum absorption within the CO rotational band.



Number: 12

4913.
Spectral composition of temperature turbulence for various stratification types of the surface air layer

D.A. Marakasov, A.L. Afanasiev, E.V. Gordeev
V.E. Zuev Institute of Atmospheric Optics of Siberian Branch of the Russian Academy of Science, Tomsk, Russia
Keywords: non-Kolmogorov turbulence, energy spectrum, stratification, Monin-Obukhov number, sonic weather stations

Abstract >>
The parameters of the spectral model of small-scale turbulence are the most important characteristics used to describe the propagation of light and sound in the atmosphere. One of the determining factors affecting the spectral composition of turbulence is the stratification regime. Based on the processing of time series of fluctuations of meteorological parameters recorded by acoustic weather stations, the effect of stratification of the surface air layer on the deviations of the turbulence spectrum from the Kolmogorov-Obukhov model is investigated. When comparing the time dynamics of the stability characteristic (Monin-Obukhov number) and the index of the power model of the spectrum of temperature fluctuations, a significant correlation between them is established. An empirical model of the dependence of the spectrum index on the stability parameter is proposed. The model makes it possible to estimate changes in the parameters of the spectral structure of small-scale turbulence based on estimates of the magnitude and direction of turbulent heat and momentum fluxes. The dependence reflects the features of generation of temperature turbulence with different stratification in the surface layer. Information on turbulent spectral parameters obtained on the basis of estimation of stratification can be further used to solve problems of propagation, of optical and acoustic as well as sounding of the atmosphere.



Number: 12

4914.
The nature of hygroscopicity of aerosol haze particles over Beijing

G.B. Pronchev, A.N. Yermakov
N.N. Semenov Federal Research Center for Chemical Physics, Russian Academy of Sciences, V.L. Talroze Institute of Energy Problems of Chemical Physics of the Russian Academy of Sciences, Moscow, Russia
Keywords: aerosol haze, hygroscopicity, sulfates, nitrate, degenerate-branched mode, Mn/Fe ions

Abstract >>
Atmospheric aerosols have a significant impact on air quality, climate, and human health. The comparison of gaseous impurity and ionic composition monitoring data in the surface atmosphere over Antwerp and Beijing showed that the hygroscopicity level of dense haze particles over Beijing in winter is determined by the depth of heterogeneous reactions of sulfate and nitrate formation. The paper discusses the dynamics and mechanisms of these non-photochemical processes, as well as the features of their coupling in a haze-polluted atmosphere. Their rapid occurrence in particles in combination with the absorption of water vapor from the air causes abnormally high mass concentrations of aerosol and their variability during the haze period over Beijing. The results are necessary for forecasting the occurrence of dense hazes, as well as for constructing models of transfer of gas and aerosol microimpurities in the atmosphere.



Number: 12

4915.
Optimization of THz radiation generation by air laser profiling using genetic algorithm

A.D. Bulygin
V.E. Zuev Institute of Atmospheric Optics of Siberian Branch of the Russian Academy of Science, Tomsk, Russia
Keywords: single-color THz radiation generation, filamentation, corona-shaped laser beam, genetic algorithm

Abstract >>
The paper investigates the generation of THz radiation in the filamentation process. The possibility of increasing the generation efficiency of terahertz (THz) radiation in a single-color filamentation mode excited in air by laser beams with necklace amplitude profile is considered. A stationary model of THz radiation generation is proposed, which allows us to study the dependence of conversion efficiency on the amplitude profiling of pump beams. It is shown that the partitioning of radiation over subapertures allows controlling the energy of THz radiation. The optimal class of gorget beams is found by the genetic algorithm method. The results of this work are important for the development of technologies for remote generation of THz radiation in gaseous media.



Number: 12

4916.
Vertical distribution of ozone in the upper troposphere - stratosphere according to lidar sounding data at the Siberian lidar station in 2023

S.I. Dolgii, A.P. Makeev, A.V. Nevzorov, A.A. Nevzorov, N.S. Salnikova, O.V. Kharchenko
V.E. Zuev Institute of Atmospheric Optics of Siberian Branch of the Russian Academy of Science, Tomsk, Russia
Keywords: atmosphere, lidar, lidar sensing, ozone, lower stratosphere, upper troposphere, stratospheric-tropospheric transport

Abstract >>
The paper presents the results of lidar measurements of the vertical ozone distribution in the lower stratosphere - upper troposphere at the Siberian Lidar Station (SLS) of V.E. Zuev Institute of Atmospheric Optics, Siberian Branch, Russian Academy of Sciences, over Tomsk in 2023. The annual variation in the vertical ozone distribution and the increased ozone content in the lower stratosphere - upper troposphere recorded in March 2023 are shown. It is assumed that the event of high ozone content in the lower stratosphere - upper troposphere on March 9 was caused by a rather rare process of stratospheric - tropospheric transfer of an air mass through the tropopause.



Number: 12

4917.
Lidar studies of wave structures and wind turbulence in the stable atmospheric boundary layer

I.N. Smalikho, V.A. Banakh, A.V. Falits, A.M. Sherstobitov
V.E. Zuev Institute of Atmospheric Optics of Siberian Branch of the Russian Academy of Science, Tomsk, Russia
Keywords: coherent Doppler lidar, wind turbulence, internal gravity wave, spectral density, atmospheric boundary layer

Abstract >>
The study of internal gravity waves (IGWs) generated in the atmospheric boundary layer (ABL) under stable temperature stratification and the mechanisms of interaction of IGW with wind turbulence are important for understanding the dynamic processes in the atmosphere and improving the algorithms of ABL numerical modeling and weather forecasts. This work is devoted to the study of wave structures and turbulence in stable ABL using the data of our experiments conducted in 2023. In these experiments, two pulsed coherent Doppler lidars (PCDL) horizontally spaced 3250 m apart were simultaneously used. The analysis of the experimental results has shown that from the measurements of two PCDLs it is possible to determine the time shift of the moments of passage of the leading edge of an atmospheric wave through the lidar locations, which is used to determine the propagation velocity of the atmospheric wave. For the first time in our lidar experiments, the case of atmospheric wave propagation in the layer at altitudes from 200 m to 1 km with a maximum amplitude of quasi-harmonic oscillations of the vertical component of the wind speed vector of about 4 m/s (at an altitude of 400 m) was revealed. It is established that due to the transfer of energy from an atmospheric wave to small-scale wind fluctuations, it is possible to increase the turbulent energy dissipation rate by four orders of magnitude in just a few tens of minutes.



Number: 12

4918.
A system for predicting the transport of pollutants in the atmosphere for Russian regions

R.Yu. Ignatov1, M.I. Nakhaev2, K.G. Rubinstein2, V.Yu. Tsepelev3, D.S. Shaposhnikov3, D.Yu. Obukhov3, A.V. Rodin3, A.V. Sedov4
1Nuclear Safety Institute, Russian Academy of Sciences, Moscow, Russia
2Monitoring Hydrometeorological Centre of Russia, Moscow, Russia
3Moscow Institute of Physics and Technology, Moscow, Russia
4Big Three, Moscow, Russia
Keywords: simulation of atmospheric pollution, chemical transport model, transfer of accidental emissions, atmospheric model

Abstract >>
A system has been created for numerical prediction of concentrations of pollutants in the atmosphere and their deposition to the ground using the Chimere chemical transport model, which takes into account emissions from stationary, emergency, and mobile sources. The forecast of meteorological fields was carried out using the regional high-resolution non-hydrostatic atmospheric model WRF-ARW. The system is fully automated, which allows it to be used as a tool for quickly obtaining operational information in the work of situation centers and decision-making centers in the cases of industrial, natural, and man-made emergencies. The results of testing the system showed its operability, the possibility of using it in operational and research work, as well as in scenarios of development of emergency situations anywhere in the country and implementation of measures to assess and eliminate the consequences of accidents. The first results of the calculation of atmospheric pollution with the system are presented. They can be considered as test. To obtain statistically reliable results, it is necessary to have longer series of measurements of atmospheric pollution concentrations and of higher resolution.



Number: 12

4919.
Experimental characteristics of atmospheric laser lines on paths of the research polygon of ILP SB RAS in Gorny Altai for environmental monitoring systems

A.V. Britvin1, B.V. Poller1,2, A.B. Poller1, N.V. Shakhov1,2
1Institute of Laser Physics SB RAS, Novosibirsk, Russia
2Novosibirsk State Technical University, Novosibirsk, Russia
Keywords: laser atmospheric line, optical interference, optical retroreflector, optical communication with UAV, laser environmental monitoring

Abstract >>
The main results of investigations of energy and time characteristics of laser pulse transmission in the range from 0.36 to 1.55 mm along horizontal and inclined mountain paths with lengths from 0.05 to 8.5 km at altitudes from 1100 to 2100 m at ILP SB RAS research site “Kaitanak" in the Altai Mountains are presented. The characteristics of optical interference in the UV- A range at different altitudes were measured. Experimental estimates of optical signals reception in the range of 0.36 mm and 0.45 mm by UAVs at a distance of up to 1.5 km from ground-based laser emitters are obtained. The parameters of retroreflectors for laser signals after operation for several years at remote mountain posts are given. The totality of the obtained characteristics opens new possibilities of building laser environmental monitoring systems for remote control of dangerous deformations of mountain slopes and rockfalls, snow accumulation, and occurrence of fires, storms, etc.



Contemporary Problems of Ecology

2024

Number: 6

4920.
Habitat features and population status of Dactylorhiza maculata (L.) Soo (Orchidaceae) on the southern border of the range in the Volga-Kama Reserve (Republic of Tatarstan)

M. B. FARDEEVA, N. A. CHIZHIKOVA, N. R. SHAFIGULLINA
Kazan Federal University, Kazan, Russia
Keywords: rare tuberoid orchid, sphagnum bogs, abiotic and biotic factors, population dynamics, Republic of Tatarstan

Abstract >>
Fluctuation dynamics (studied for 9-27 years) of the abundance, density, age and spatial structure of Dactylorhiza maculata (L.) Soó population on Lake Dolgoe of the Volga-Kama Reserve reflects the mechanisms of maintaining the population at the southern border of the range. The data were stored into the database. Abiotic and biotic factors of transitional shrub-sedge sphagnum bogs are the most suitable for the conservation of a rare species, where boreal and arcto-boreal species are preserved, and favourable microsites are open and moist areas of the mire, with pH 4.1-4.5. The biodiversity of sphagnum mosses in the habitats of Dactylorhiza maculata is represented by 9 species, where the carpet species is Sphagnum angustifolium, and Sphagnum divinum appears in open and wet micro-areas, Sphagnum centrale appears in areas overgrown with open forest. A significant relationship of the species abundance with climatic factors revealed: positive relationship with precipitation, negative relationship with average temperatures of the growing season. The number of reproductive D. maculata does not depend on precipitation in moist microsites. Ontogenetic stages were reliably identified using the morphometric parameters of vegetative and reproductive plants: juvenile (j); immature (im); virginal (v); young reproductive (g1); mature reproductive (g2). The ontogenetic spectrum is 11.5: 17: 29: 42.5 (j: im: v: g), proportion of pre-reproductive individuals fluctuated between 57-66 % in the period of 9-27 years of study, due to a high percentage of fruit formation (up to 60 %). Spatial distribution of individuals predominantly is clustered, consisting of aggregations with a radius of 0.5-1.2 m, distributed randomly. The dynamics of spatial mosaics, accompanied by the migration of seeds and individuals of D. maculata to favourable microsites, is a natural compensatory resistance mechanism that ensures the dynamic balance of the population.




Articles 4911 - 4920 of 30791
First | Prev. | 490 491 492 493 494 | Next | Last All