Your search keyword '"Vasenev, Viacheslav I."' showing total 2 results

1. Impact of Anthropogenic Factors on the Diversity of Microbial Communities of PM10 Air and PM100 of Tilia L. Phylloplane in an Urban Ecosystem.

Author

Sazonova, Olesya I., Ivanova, Anastasia A., Vetrova, Anna A., Zvonarev, Anton N., Streletskii, Rostislav A., Vasenev, Viacheslav I., Myazin, Vladimir A., Makhinya, Ksenia I., Kozlova, Ekaterina V., and Korneykova, Maria V.

Subjects

URBAN ecology, BACTERIAL communities, ENVIRONMENTAL quality, BIOTECHNOLOGY, PARTICULATE matter, FUNGAL communities

Abstract

Simple Summary: The air microbiome is one of the most poorly characterized microbial communities of environmental objects. It has been suggested that leaves are indicators of air quality. In the present work, the taxonomic and functional diversity of bacterial and fungal communities, PAHs, and metal contents in PM100 of leaves and PM10 of air collected from two zones with different levels of anthropogenic pollution were compared. Dust particles found on the surface of leaves and air filters were also compared using scanning electron microscopy. Our data showed that air pollution had a greater effect on phylloplane bacterial communities. The effect of air pollution on bacterial communities could facilitate their use as indicators for monitoring atmospheric conditions. At the same time, bacterial organisms are performers whose role in biotechnological methods of air purification is inevitably important. Identifying the relationship between the microbiomes of urban dust particles from different biotopes is important because the state of microorganisms can be used to assess the quality of the environment. The aim of this work was to determine the distribution and interaction patterns of microorganisms of dust particles in the air and on leaf surfaces. Metabarcoding of bacterial and fungal communities, PAH, and metal content analyses and electron microscopy were used in this work. The results obtained allowed us to characterise the biological and chemical components of the dust particles. Some bacterial and fungal genera were correlated with benzanthracene, fluoranthene, and Cu, Ni, Co, Zn, and Mn contents. Bacterial communities were found to be more sensitive to all the pollutants studied. PM10 microbial communities circulated between biotopes and study areas due to air flows, as evidenced by the presence of similar ASVs in fungi and bacteria. The results could help to understand the effects of climate change and anthropogenic activities. [ABSTRACT FROM AUTHOR]

Published

2024

2. Microscopic Fungi in Big Cities: Biodiversity, Source, and Relation to Pollution by Potentially Toxic Metals.

Author

Korneykova, Maria V., Soshina, Anastasia S., Novikov, Andrey I., Ivashchenko, Kristina V., Sazonova, Olesya I., Slukovskaya, Marina V., Shirokaya, Anna A., Vasenev, Viacheslav I., Vetrova, Anna A., and Gavrichkova, Olga

Subjects

MICROFUNGI, POLLUTION, AIR quality, CLIMATIC zones, SPECIES diversity

Abstract

For the first time, a mycological analysis of outdoor urban environment (air, leaves, sealed surfaces) was carried in the cities of subarctic (Murmansk) and temperate (Moscow) climatic zones. The chemical composition of dust deposited on leaves of dominant tree species was taken as an indicator of the air quality. Assessment of the complex impact of factors (climate zone, type of substrate, anthropogenic load) on the quantitative and qualitative parameters of mycobiome was performed. Compared to Moscow, Murmansk was characterized by an increased number and concentrations of pollutants in the deposited dust. The number of culturable airborne fungi in Murmansk was substantially lower than in Moscow. Half of the species belonged to the opportunistic in both cities. Most dangerous opportunistic fungi were absent in the air of recreational zones but present on leaves surface and in road dust in all assessed zones of the cities. Dust chemical composition affected the diversity of fungi species. While the relationship of biological parameters with concentration of potentially toxic metals was generally negative, Cd increased the fraction of opportunistic fungi in road dust. The study revealed an importance of substrate in determining the sensitivity of outdoor mycobiome to pollution and highlighted its biological characteristics sensitive to climate. [ABSTRACT FROM AUTHOR]

Published

2021