Your search keyword '"Vynokurova, Nadiya"' showing total 4 results

1. Soil Degradation and Contamination Due to Armed Conflict in Ukraine.

Author

Solokha, Maksym, Demyanyuk, Olena, Symochko, Lyudmyla, Mazur, Svitlana, Vynokurova, Nadiya, Sementsova, Kateryna, and Mariychuk, Ruslan

Subjects

ARMORED military vehicles, WAR, SOIL degradation, ENVIRONMENTAL degradation, SOIL pollution

Abstract

The impact of the active hostilities associated with Russia's large-scale armed invasion of the territory of Ukraine on soil degradation as a result of military actions has resulted in soil damage due to heavy military armored vehicles. Debris from destroyed military equipment, ammunition, and fuel remnants lead to multi-factor damage to the soil system, causing local and global pollution and losses of soil resources. In all the studied cases, mechanical, chemical, and physical soil degradation were observed. This was manifested in changes in granulometric fractions at explosion sites, burning areas, and locations with heavy-metal contamination. Equipment incineration has resulted in an increase in the sand fraction (2.0–0.05 mm) by 1.2–1.8 times and a decrease in the clay fraction (<0.002 mm) by 1.1–1.2 times. The soil contamination levels with regard to heavy metals significantly surpass health standards, with the highest pollution levels observed for Pb, Zn, and Cd. Across all affected areas, changes occurred in the microbiome structure (a 20.5-fold increase in the proportion of mycelial organisms), microbiological process activity was suppressed (a 1.2-fold decrease), microbial biomass (a 2.1-fold decrease) was reduced, and high soil toxicity (99.8%) was observed. Explosions and the pyrolysis of armored vehicles have a significant impact on soil mesobiota and plants. The results indicate the existence of complex interactions between various factors in the soil environment post-explosion, significantly affecting soil health. [ABSTRACT FROM AUTHOR]

Published

2024

2. Russian-Ukrainian war impacts on the environment. Evidence from the field on soil properties and remote sensing

Author

Solokha, Maksym, primary, Pereira, Paulo, additional, Symochko, Lyudmyla, additional, Vynokurova, Nadiya, additional, Demyanyuk, Olena, additional, Sementsova, Kateryna, additional, Inacio, Miguel, additional, and Barcelo, Damia, additional

Published

2023

3. Russian-Ukrainian war impacts on the environment. Evidence from the field on soil properties and remote sensing

Author

Solokha, Maksym, Pereira, Paulo, Symochko, Lyudmyla, Vynokurova, Nadiya, Demyanyuk, Olena, Sementsova, Kateryna, Inacio, Miguel, Barceló, Damià, Solokha, Maksym, Pereira, Paulo, Symochko, Lyudmyla, Vynokurova, Nadiya, Demyanyuk, Olena, Sementsova, Kateryna, Inacio, Miguel, and Barceló, Damià

Abstract

The Russian-Ukrainian war is having a dramatic impact on the environment. The effects are still unknown. However, it is expected that the effects will be substantial. Since the conflict is ongoing, it is challenging to have ground-accurate data that could show an idea of the extension of the impact. Remote sensing can support a preliminary analysis in areas without safety to conduct fieldwork. This work aims to assess the impacts of the Russian-Ukrainian war on the environment using field and remote sensing sources. This is the first work that published fieldwork data from this conflict. Different soil properties were studied (e.g., texture and heavy metals) in different places (Novy Korotych and Mala Rohan). Remote sensing (e.g., Normalised Difference Vegetation Index) at different spatial scales (Eastern Ukraine and case study in the Kharkiv region) were assessed between 2021 and 2022. The results showed that the finer sediments increased in bombed areas compared with not bombed ones. Also, there was an increase in the content of heavy metals (e.g., Manganese, Iron, Cobalt, Copper, Cadmium, Chromium, Lead and Nickel) in soils in the shelled areas, compared to the non-shelled. This was mainly observed in the Novy Korotych site. Remote sensing analysis revealed that between 2021 and 2022 at a large scale (Eastern and southeastern Ukraine), vegetation greenness decreased in the areas where the combats are more intense (Luhansk and Donetsk) and increased in the southern area (Zaporizhia and Kherson), likely due to agriculture abandonment. On a small scale (case study in Kharkiv region), the vegetation greenness was affected due to the bombing. Although our results are preliminary, it is important to highlight that shelling is increasing soil pollution and contributing to vegetation greenness reduction where the fighting is intense. The actual impacts of the war still need to be understood entirely.

Published

2023

4. Erratum to "Russian-Ukrainian war impacts on the environment. Evidence from the field on soil properties and remote sensing" [Sci. Total Environ. 902 (2023) 166122].

Author

Solokha M, Pereira P, Symochko L, Vynokurova N, Demyanyuk O, Sementsova K, Inacio M, and Barcelo D

Published

2024