Ambient air quality and health risks as objective indicators to estimate effectiveness of air protection in cities included into the ‘Clean Air’ Federal project

Zaitseva, N.V.; May, I.V.

doi:10.21668/health.risk/2023.1.01.eng

health risk analysis

2023

DOI: 10.21668/health.risk/2023.1.01.eng

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Ambient air quality and health risks as objective indicators to estimate effectiveness of air protection in cities included into the ‘Clean Air’ Federal project

N.V. Zaitseva¹,

I.V. May²

Abstract: It is important to estimate effectiveness and results achieved by measures implemented within the ‘Clean Air’ Federal project as regards public health in cities included into it. The aim of this study was to analyze changes in levels of ambient air pollution and airborne health risks in cities included into the ‘Clean Air’ Federal project in dynamics over 2020–2022 and to estimate whether the measures aimed at reduction of emissions were adequate to risk rates and factors. The study relied on analyzing the r… Show more

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Cited by 5 publications

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Assessment of the risk to the health of the population living in the zone influenced by atmospheric emissions from the engineering industry

Kislitsyna,

Surzhikov,

Golikov

et al. 2024

Med. tr. prom. èkol.

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Introduction. During operation, machine-building enterprises emit pollutants that can negatively affect the health of the population. The study aims to determine the impact of emissions from a machine–building plant, as well as background atmospheric pollution, on the health risk of the population of Novokuznetsk. Materials and methods. The work used data from the volume of maximum permissible emissions of a machine-building plant. The researchers calculated the maximum and average concentrations of pollutants using the "ECOcenter – Standard" program at 36 exposure points selected on the city map. Experts determined the maximum permissible concentrations of pollutants in the atmosphere in accordance with SanPiN 1.2.3685-21. The authors calculated the risks to public health in accordance with the Guidelines R 2.1.10.1920-04. The classification of risk levels was carried out on the basis of MP 2.1.10.0156-19. 2.1.10. Scientists also made a risk assessment considering background atmospheric pollution. Results. Specialists carried out a risk assessment from exposure to nitrogen dioxide, carbon monoxide, sulfur dioxide, carbon (soot), inorganic dust, hexavalent chromium. The maximum and average concentrations of pollutants, as well as the maximum concentrations calculated taking into account background pollution, did not exceed the maximum permissible level. The average concentrations of nitrogen dioxide and hexavalent chromium, taking into account the background, exceeded the hygienic standard. The values of the hazard indices for acute and chronic exposures without taking into account the background, as well as for acute exposures taking into account the background, corresponded to the minimum (target) risk level. The values of the hazard indices for chronic inhalation effects, considering the background, corresponded to the alarming risk level at five points, amounting to 3.084–3.800. With chronic exposure, taking into account the background, an alarming level of risk was revealed for the effect on the respiratory organs (at four points the hazard index was 3.117 to 3.616) and blood (at three points the hazard index was in the range from 3.090 to 3.433). The total individual carcinogenic risk, excluding background, did not exceed the permissible level, ranging from 1.08×10–8 to 2.43×10–7 at different points, taking into account the background, amounted to 1.79×10–4–2.26×10–4, which corresponds to an alarming level. Hexavalent chromium makes the main contribution to the formation of carcinogenic risk. Limitations. Calculated concentrations of pollutants were used to assess the risks. Conclusion. The risks from exposure to atmospheric emissions from the machine-building plant correspond to the minimum (target) level. Background concentrations of toxic substances in chronic inhalation exposures determine an alarming level of non-carcinogenic risk at five points, as well as an alarming level of carcinogenic risk at all points of exposure. Ethics. This study did not require the conclusion of the Ethics Committee.

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Assessment of the risk to the health of the population living in the zone influenced by atmospheric emissions from the engineering industry

Kislitsyna,

Surzhikov,

Golikov

et al. 2024

Med. tr. prom. èkol.

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Comparative Hygienic Assessment of the Composition of Ash and Dust Fractions in Ambient Air of the Area Affected by Emissions from a Thermal Power Station: Improving the Accuracy of Human Health Risk Assessment

Zaitseva,

Kleyn,

Andrishunas

et al. 2023

PH&LE

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Introduction: The relevance of the study is determined by a great number of functioning thermal power stations that operate using solid fuels (40 %) and are a source of ambient air pollution posing human health risks. Objective: A comparative hygienic assessment of the component, disperse, and morphological composition of fly ash and airborne particles in the area surrounding a coal-fired power station for the purpose of increasing the accuracy of human health risk assessment. Materials and methods: We have used unified and approved methods for hygienic assessment of ambient air quality; hazard identification and health risk assessment; scanning electron microscopy and micro-X-ray fluorescence spectroscopy of component, disperse, and morphological structure of fly ash and airborne particulate matter. Results and discussion: Large coal-fired thermal power plants emit about 36 chemicals. Over 59 % of brown coal ash particles are calcium, magnesium, iron, silicon, aluminum, sodium, potassium, sulfur, and phosphorus compounds. Particles found in fly ash and ambient air of the surrounding area have similar components and dispersion, are predominantly less than 10 µm in diameter with the sphericity index ranging from 0.4 to 1.0. Maximum allowable concentrations (MAC) of seven chemicals are exceeded in the study area: up to 3.3 single MAC, up to 1.4 average daily MAC, and up to 1.5 average annual MAC, with the estimated contribution of the thermal power stations of about 40 %. We have also established increased non-carcinogenic health risks with the dust fractions alone generating risk levels as high as 5.5 HQac, 2.4 HQch, and 6.9 HIch, which are rated as “high” and “alerting”. Identified solid particles (aluminum, magnesium, calcium, etc.) are more significant risk factors compared to unidentified particulate matter and can cause respiratory and circulatory diseases, diseases of the eye, etc., which requires their quantification. These chemicals are not included in air emissions inventory lists and are, therefore, not monitored. As a result, health risks posed by economic activities of thermal power stations may be underestimated.

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Assessment of the annual trend of chemical aerogenic risk to health and mortality of the population at an industrial center

Efimova,

Kuzmina,

Bobkova

2023

Hygiene and Sanitation

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Introduction. Ambient air pollution determines high levels of risk to public health, causing excess mortality. The purpose of the study is to analyze the dependence of the seasonal dynamics of pollutants and mortality from major non-infectious diseases in the population of the industrial center of Eastern Siberia. Materials and methods. Air pollution in Bratsk was assessed based on data from monitoring systems for 2017–2022, taking into account one-time, average monthly and annual concentrations. Hazard indices and mortality rates (MR) from major causes were calculated. The annual trend in indicators are assessed using seasonality indices (SI). Results. Features of the seasonal dynamics of pollutants were revealed: maximum fluctuations in SI are characteristic of benzo(a)pyrene (22% in the warm season, 214% in the cold season), formaldehyde (219 and 65%, respectively). The SI for mortality had significant fluctuations throughout the year and varied across age groups and disease classes. Changes in seasonality have been noted during the COVID-19 pandemic. Average monthly MR in the older group is associated with concentrations of PM2.5, formaldehyde, NO2. Limitations of the study are related to the limited data on monitoring pollutants, inevitable errors in conditional division into seasons, and the impossibility of accurately determining the cause of death during a pandemic. Conclusion. The use of average monthly data on MR values and pollutant concentrations confirms the dependence of population mortality on air pollution when studying this phenomenon in medium-sized cities with high levels of hazard indices.

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Ambient air quality and health risks as objective indicators to estimate effectiveness of air protection in cities included into the ‘Clean Air’ Federal project

Cited by 5 publications

References 11 publications

Assessment of the risk to the health of the population living in the zone influenced by atmospheric emissions from the engineering industry

Assessment of the risk to the health of the population living in the zone influenced by atmospheric emissions from the engineering industry

Comparative Hygienic Assessment of the Composition of Ash and Dust Fractions in Ambient Air of the Area Affected by Emissions from a Thermal Power Station: Improving the Accuracy of Human Health Risk Assessment

Assessment of the annual trend of chemical aerogenic risk to health and mortality of the population at an industrial center

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