Natalia Sheviakina scite author profile

Natalia Sheviakina

5Publications

2Citation Statements Received

0Citation Statements Given

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Affiliations

National Academy of Sciences of Ukraine

Publications

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Monitoring of Fires and Assessment of Changes in the State of Nature-Protected Territories of Ukraine as a Result of Military Operations

Trofymchuk

Vishnyakov²,

Sheviakina

et al. 2022

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The article presents the results of remote monitoring of the consequences of armed aggression, namely the occurrence of fires on the territory of protected areas in the combat zone. In combination with "traditional" data, satellite imagery can play a crucial role in protecting protected areas and providing evidence of environmental violations. Plant and animal life are under threat of destruction from enemy shelling by the Russian army. In addition, there is the uncontrolled spread of fire in the combat zone of Ukraine due to limited access the emergency services. Because of hostilities, landmines, and the occupation of Ukrainian territory, Ukrainian rescuers and foresters are not always able to fully prevent and fight fires. To identify the facts of fires, and to determine the coordinates of fires that lead to large-scale fires in the specified conditions, space monitoring by methods of remote sensing of the Earth is effective. Using remote sensing data, the authors present a methodology for monitoring fires as a result of military operations in Ukraine, the scale of fires, tracing the direction of their spread, etc. The help of satellite monitoring determined fires, and the causes of their occurrence making it possible to predict further spread and assess the affected areas. The publication presents the results of research on the use of remote sensing data on determining the thermal anomalies, hotbeds, and fires, and the proposed approach to monitoring of natural areas of Ukraine in the combat zone.

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The Aspects of Using Gis in Monitoring of Environmental Components

Trofymchuk¹,

Klymenko²,

Anpilova³

et al. 2020

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Geoinformation technologies for geoecological monitoring of urbanized water bodies

Zheng¹,

Sheviakina²,

Zagorodnia³

et al. 2021

Ecological Sciences

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Information Technology for Environmental Assessment of Limnological Systems

Sheviakina¹,

Klymenko²,

Zagorodnya³

et al. 2020

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Remote Sensing Monitoring of Anthropogenic Changes in the Desenka River Channel (Kyiv, Ukraine)

Zheng¹,

Sheviakina

Zagorodnia

et al. 2022

UJRS

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The article is devoted to developing an universal methodological apparatus of ecological monitoring and practical assessment of the state of hydroecosystems to determine the nature of the anthropogenic impact. The authors analyzed the transformation of the Desenka River channel (Kyiv, Ukraine) in the 1965 – 2021 years. The primary attention is paid to changes in the coastline of Kyiv to determine the nature of the anthropogenic impact on the study area. The authors improved the technology of monitoring the dynamics of the water regime of the riverbed by constructing bathymetric maps based on the results of hydroacoustic measurements and the space imagery interpretation.The complex use of methods for selecting and processing information was applied through the use of GIS technologies (thematic classification of remote sensing results in the conditions of data exchange of ground-based verifications with independent features of objects). The results are presented in a way that is easy to interpret. It was found that the main reason for the change in area is sand mining. The bathymetric survey allowed to specify the maximum depth of the reservoir, which is 16.8 m. It was determined that the relief of the bottom is typical for a quarry. The river's depth in its central part increases from west to east in proportion to the increase in the width of the reservoir. The study found that sand was mined in the same place, washing away huge underwater quarries and forming numerous silt alluviums. According to the results of the analysis of changes in areas presented in this study, the authors proved that uncontrolled sand mining has a negative impact on the biotic stability of landscapes and causes irreparable damage to the environment. The effectiveness of remote sensing methods for determining the ecological status of hydroecosystems is proved. The presented studies indicate the need to stabilize the ecological balance of the river ecosystem, take appropriate measures to increase the productivity of hydrolandscapes, improve the environment and ensure the environmental safety of the Desenka River and coastal areas.

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