An Interdisciplinary Approach to Predicting the Effects of Transboundary Atmospheric Transport to Northwest European Neighboring States

The Kola North is the most industrial territory of the Arctic region, where enterprises are sources of sulfur dioxide (SO2), which disperses widely not only throughout the Kola North, but also to the territories of neighboring Northwest European countries: Norway and Finland. The purpose of this stu...

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Main Authors: Belisheva, N. (Natalia), Martynova, A. (Alla), Mikhaylov, R. (Roman)
Format: Other/Unknown Material
Language:Indonesian
Published: Knowledge E 2022
Subjects:
Indonesia
Arctic
Norway
Olenegorsk
Online Access:https://www.neliti.com/publications/514433/an-interdisciplinary-approach-to-predicting-the-effects-of-transboundary-atmosph
id ftneliti:oai:neliti.com:514433
record_format openpolar
spelling ftneliti:oai:neliti.com:514433 2023-05-15T15:10:57+02:00 An Interdisciplinary Approach to Predicting the Effects of Transboundary Atmospheric Transport to Northwest European Neighboring States Belisheva, N. (Natalia) Martynova, A. (Alla) Mikhaylov, R. (Roman) 2022-02-11 application/pdf https://www.neliti.com/publications/514433/an-interdisciplinary-approach-to-predicting-the-effects-of-transboundary-atmosph id ind Knowledge E https://www.neliti.com/publications/514433/an-interdisciplinary-approach-to-predicting-the-effects-of-transboundary-atmosph (c) KnE Social Sciences, 2022 KnE Social Sciences Indonesia Journal:eArticle 2022 ftneliti 2022-10-19T05:16:38Z The Kola North is the most industrial territory of the Arctic region, where enterprises are sources of sulfur dioxide (SO2), which disperses widely not only throughout the Kola North, but also to the territories of neighboring Northwest European countries: Norway and Finland. The purpose of this study was to reveal the main sources of atmospheric SO2 pollution in the Kola North, assess the possible contribution of SO2 to the morbidity of respiratory diseases among children in the region, study the daily dynamics of SO2 content, and examine the likelihood of transboundary transport to neighboring states. The pathways of SO2 transfer throughout 2020 were revealed by using daily data about SO2 surface mass, wind direction and speed selected from the Geographic Information System for the cities of Zapolyarny (69∘24′55″ N, 30∘48′48″ E) and Olenegorsk (68∘08′35″ N, 33∘ 15′10″ E). It was found that the prevalence of pneumonia in 0-14-year-old children was associated with Olenegorsk, where the maximum of SO2 emissions was detected. The median values of SO2 surface mass were 2.7 times higher for Olenegorsk than for Zapolyarny and exceeded the maximum permissible concentration. The probability of SO2 transport to the territories of Norway and Finland was also estimated. This study highlights the complexity of the problem of transboundary airborne pollution transport, which requires interdisciplinary research to predict the consequences of the contamination for territories of the neighboring Northwest European countries. Keywords: Kola North, sulfur dioxide, respiratory morbidity among children, transboundary atmospheric transport, neighboring states Other/Unknown Material Arctic neliti (Indonesia's Think Tank Database) Arctic Norway Olenegorsk ENVELOPE(33.253,33.253,68.143,68.143)
institution Open Polar
collection neliti (Indonesia's Think Tank Database)
op_collection_id ftneliti
language Indonesian
topic Indonesia
spellingShingle Indonesia
Belisheva, N. (Natalia)
Martynova, A. (Alla)
Mikhaylov, R. (Roman)
An Interdisciplinary Approach to Predicting the Effects of Transboundary Atmospheric Transport to Northwest European Neighboring States
topic_facet Indonesia
description The Kola North is the most industrial territory of the Arctic region, where enterprises are sources of sulfur dioxide (SO2), which disperses widely not only throughout the Kola North, but also to the territories of neighboring Northwest European countries: Norway and Finland. The purpose of this study was to reveal the main sources of atmospheric SO2 pollution in the Kola North, assess the possible contribution of SO2 to the morbidity of respiratory diseases among children in the region, study the daily dynamics of SO2 content, and examine the likelihood of transboundary transport to neighboring states. The pathways of SO2 transfer throughout 2020 were revealed by using daily data about SO2 surface mass, wind direction and speed selected from the Geographic Information System for the cities of Zapolyarny (69∘24′55″ N, 30∘48′48″ E) and Olenegorsk (68∘08′35″ N, 33∘ 15′10″ E). It was found that the prevalence of pneumonia in 0-14-year-old children was associated with Olenegorsk, where the maximum of SO2 emissions was detected. The median values of SO2 surface mass were 2.7 times higher for Olenegorsk than for Zapolyarny and exceeded the maximum permissible concentration. The probability of SO2 transport to the territories of Norway and Finland was also estimated. This study highlights the complexity of the problem of transboundary airborne pollution transport, which requires interdisciplinary research to predict the consequences of the contamination for territories of the neighboring Northwest European countries. Keywords: Kola North, sulfur dioxide, respiratory morbidity among children, transboundary atmospheric transport, neighboring states
format Other/Unknown Material
author Belisheva, N. (Natalia)
Martynova, A. (Alla)
Mikhaylov, R. (Roman)
author_facet Belisheva, N. (Natalia)
Martynova, A. (Alla)
Mikhaylov, R. (Roman)
author_sort Belisheva, N. (Natalia)
title An Interdisciplinary Approach to Predicting the Effects of Transboundary Atmospheric Transport to Northwest European Neighboring States
title_short An Interdisciplinary Approach to Predicting the Effects of Transboundary Atmospheric Transport to Northwest European Neighboring States
title_full An Interdisciplinary Approach to Predicting the Effects of Transboundary Atmospheric Transport to Northwest European Neighboring States
title_fullStr An Interdisciplinary Approach to Predicting the Effects of Transboundary Atmospheric Transport to Northwest European Neighboring States
title_full_unstemmed An Interdisciplinary Approach to Predicting the Effects of Transboundary Atmospheric Transport to Northwest European Neighboring States
title_sort interdisciplinary approach to predicting the effects of transboundary atmospheric transport to northwest european neighboring states
publisher Knowledge E
publishDate 2022
url https://www.neliti.com/publications/514433/an-interdisciplinary-approach-to-predicting-the-effects-of-transboundary-atmosph
long_lat ENVELOPE(33.253,33.253,68.143,68.143)
geographic Arctic
Norway
Olenegorsk
geographic_facet Arctic
Norway
Olenegorsk
genre Arctic
genre_facet Arctic
op_source KnE Social Sciences
op_relation https://www.neliti.com/publications/514433/an-interdisciplinary-approach-to-predicting-the-effects-of-transboundary-atmosph
op_rights (c) KnE Social Sciences, 2022
_version_ 1766341874598019072

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