Air Pollutants And Meteorological Variables Influence Pollen Concentration: Study

Posted on December 29, 2021 by Respro® UK Ltd

Scientists have found that air pollutants influence pollen concentration and different types of pollens have a unique response to weather conditions.

Pollens remain suspended in the air and form part of the air we breathe. When inhaled by humans, they put a strain on the upper respiratory system. They cause widespread upper respiratory tract and naso-bronchial allergy with manifestations like asthma, seasonal rhinitis, and bronchial irritation.

Airborne pollen varies in character from place to place due to diverse meteorological or environmental conditions. There is growing evidence that airborne pollen plays a crucial role in increasing allergic diseases in the urban environment. As pollen, climatic variables, and air pollutants coexist in nature, they have the potential to interact with one another and exacerbate their adverse effects on human health.

Considering this, Prof. Ravindra Khaiwal from Post Graduate Institute of Medical Education and Research (PGIMER), Chandigarh, along with Dr. Suman Mor, Chairperson, Department of Environment Studies and Ms. Akshi Goyal, Ph.D. research scholar, studied the influence of meteorology and air pollutants on the airborne pollen of the city Chandigarh. The group explored the relationships of temperature, rainfall, relative humidity, wind speed, direction, and ambient air pollutants mainly, particulate matter and nitrogen oxide to the airborne pollen.

The study has been financially supported by the Department of Science and Technology (DST), Government of India, and is one of the first studies in India trying to understand the impact of air pollutants and meteorological variables on airborne pollen. The study is recently published in Science of the Total Environment, a journal by Elsevier.

The study suggests that each pollen type studied had a unique response to weather conditions and air pollutants. The majority of pollen types were reported in the spring and autumn flowering period. Distinct peaks of airborne pollen were observed during favorable weather conditions, like moderate temperature, low humidity, and low precipitation. It was observed that moderate temperature plays a significant role in flowering, inflorescence, maturation, pollen release, and dispersal. In contrast, pollen grains were eliminated from the atmosphere during precipitation and high relative humidity. A

complex and obscure relationship of airborne pollen was indicated with air pollutants. The scientists plan to examine long-term data sets to establish the trends in the relationship.

Prof. Ravindra Khaiwal highlighted that in terms of the climatic future, it is expected that the urban environment will significantly impact plant biological and phenological parameters.

Therefore, the study’s findings generate useful hypotheses that air pollutants influence pollen concentration and can be further explored as the data set expands in the future.

The current study’s findings could help to improve the understanding of complex interactions between airborne pollen, air pollutants, and climatic variables to aid in formulating suitable mitigation policies and minimizing the burden of pollinosis in the Indo-Gangetic Plain region. This region has been identified as a hotspot of air pollution, specifically during October and November months.

Air Pollutants And Meteorological Variables Influence Pollen Concentration: Study | HealthWire
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Islamabad’s air pollution reaches record highest

Posted on December 23, 2021 by Respro® UK Ltd

Federal capital’s air pollution reaches record highest, reveals the 24 hours ambient air quality report of Pakistan Environmental Protection Agency (Pak-EPA)’s on Wednesday.

According to the report, increased ratio of environmental pollutants causing bad air and degraded atmosphere leading to smog.

The National Environmental Quality Standards (NEQS) by EPA set a threshold of 35 microgrammes per cubic meter for particulate matter of 2.5 microns (PM2.5), 120 microgrammes per cubic meter for sulphur dioxide (SO2) and 80 microgrammes per cubic meter to ensure clean ambiance. The report highlighted that the past 24 hours average of PM2.5 was recorded 198.96 microgrammes per cubic meter which was reported the highest ever during 8 hours average at 280.3 microgrammes per cubic meter from 1600 to 2400 hours.

The other parameters of daily quality report included SO2 and NO2 which are generally released from industrial emissions. The 24 hours average of SO2 was 19.88 microgrammes per cubic meter and 43.44 microgrammes per cubic meter of NO2 and both effluents were recorded within the permissible limits.

When contacted the EPA official informed that the air quality was hazardous due to increased vehicular emissions and prolonged dry weather resulted in huge accumulation of suspended particles of air pollutants in the atmosphere.

The official further informed that the air quality was hazardous for all age groups and the general public was advised to wear face covering outdoors and avoid unnecessary travel in the federal capital due to high pollution level.

To a question, she said that the areas along hilly terrain mostly possessed increased propensity of generating air pollution due to the natural topography creating a blockade for winds causing air pollution.

She further informed that one of the major reasons for Capital’s air pollution was large number of vehicles entering the capital on daily basis. The industrial sector particularly steel manufacturing units spewing dark smoke were the troublemakers and had adopted carbon absorbing scrubbers that helped control dark carbon release into the atmosphere, she added.

During the winter season, many local people in the slum areas and CDA sanitary workers were burning plastic or household waster for heating purposes during cold weather which was also increasing air pollution.

The CDA official clearly mentioned that the Authority’s staff was strictly warned to not burn waste whereas the public was encouraged to report it to concerned director for further action if found any staffer burning waste.

Islamabad’s air pollution reaches record highest – Daily Times
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Welcome to winter in Utah, gunky inversions and how to stay informed

Posted on December 22, 2021 by Respro® UK Ltd

Welcome to winter and Utah’s first prolonged inversion this season that is choking the Wasatch Front and Cache Valley, leading to mandatory action that prohibits the use of wood-burning devices and has regulators urging people to stay out of their vehicles.

The values for fine particulate matter, or PM2.5, are exceeding the federal clean air threshold in Salt Lake, Davis, Weber and Cache counties in particular, with other areas of the state experiencing moderate conditions as a high pressure system sets in.

“You could see the inversion start to settle in Sunday,” said Kimberly Kreykes, an environmental scientist with the Utah Division of Air Quality.

“It has grown over the last few days … everything just kind of builds and builds.”

Kreykes added that most areas of Salt Lake County are especially bad for air pollution, with unhealthy numbers in the range that pose health problems for sensitive populations such as the elderly, the very young and people with respiratory issues.

The hourly high values are in the 50s, she noted, while the federal threshold is 35 micrograms per cubic meter.

“I really hate saying those numbers,” Kreykes said.

PM2.5 is 3% the diameter of a human hair and easily seeps into the lungs. Unhealthy levels of the fine particulate matter have been linked to increased incidence of strokes or heart attacks, aggravation of respiratory conditions and the early onset of dementia.

Utah had a relatively mild inversion last winter because of the lack of snow cover.

A stagnant weather system this week, coupled with snow on the ground from last week’s storms, are aggravating harmful pollution levels.

Fare for any ride on Utah Transit Authority buses and trains is free Tuesday and Wednesday due to legislation passed a couple of years ago, sponsored by Rep. Joel Briscoe, D-Salt Lake City.

The bad air this week also triggered activation of the Surge Telework program for eligible state employees.

Initiated by legislation sponsored in the last legislative session by Sen. Daniel McCay, R-Riverton, the program identifies about 2,500 state employees who are eligible to work from home and stay off the road.

Ashley Sumner, communications director for the Utah Department of Environmental Quality, said the goal is to get 90% of those workers out of their cars to help tamp tailpipe emissions — the largest contributor of PM2.5 pollution.

Her office works in conjunction with Gov. Spencer Cox’s Office of Planning and Budget to determine when Surge Telework kicks in.

Pollution forecasters look to the days ahead in anticipation of worsening conditions to determine when the program is activated.

Surge was implemented several days over the summer when the Wasatch Front — and much of the state — was suffering from high ozone pollution as well as the summertime oddity of spiking PM2.5 levels fueled by western wildfires.

Utah researchers and air quality regulators have long known tailpipe emissions are the Wasatch Front’s primary culprit when it comes to air pollution and correspondingly have launched aggressive campaigns to get people to take public transit, consolidate trips if they have to drive or telecommute.

The onset of the coronavirus pandemic in 2020 demonstrably emphasized that correlation as lockdowns forced much of the working population to stay at home

With many employers still hovering in the wait-and-see mode to determine when their workforce might return to the office, it is expected that if and when coronavirus cases drop to manageable levels, telecommuting still might be the new norm for many — and present another way Utah can tackle its air pollution problem.

Kreykes said the first step in the fight against unhealthy air is to stay informed.

She urged residents to check out the Division of Air Quality’s website that offers information on current conditions, a pollution forecast and an inversion toolkit.

In addition, the division has its own, free app available on both android and IOS phones called AirUtah. It uses the GPS locator on the smart phones to bring up the latest air quality conditions based on the nearest monitoring station the division operates.

Kreykes said an approaching storm front forecasted for Thursday might be the ammunition needed to clear out the air.

“I am cautiously optimistic,” she said. “We are really hoping for a clean air quality Christmas.”

Welcome to winter in Utah, gunky inversions and how to stay informed – Deseret News
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Ambulance call-outs for heart attacks rise when air pollution is high, German study finds

Posted on December 21, 2021 by Respro® UK Ltd

Ambulance call outs for heart attacks are more common on days when air pollution levels are high, according to new research being presented at Euroanaesthesia, the annual meeting of the European Society of Anaesthesiology and Intensive Care (ESAIC), held online this year (17-19 Dec). Warmer weather, is however, associated with fewer heart attacks.

Fluctuations in air pollution levels and changing weather conditions are already known to affect health1,2.  Rises in air pollution, for example, can exacerbate heart and respiratory conditions.

A better understanding of these links could help hospitals better plan for climate-change related changes in weather conditions.

In the first study of its kind in Europe, Sabine Weingast and colleagues at the Department of Anaesthesiology, School of Medicine, Technical University of Munich, Germany, looked at the links between call outs of EMS (ambulances assisted by a doctor) for acute coronary syndrome (ACS) and weather conditions and air pollution levels. ACS is umbrella term for heart attacks and unstable angina, which can lead to a heart attack. It is one of the most common causes of death in Germany and of EMS call outs, making it a good marker of pressure on the health service.

Almost a third (3,818) of the 12,073 EMS call outs in the Munich-Riem area of Munich from 2014 to 2017 were for ACS.

Factoring in data provided by the Munich German weather service revealed that call outs for ACS were more likely when air pollution was high. 

Rises in carbon monoxide, nitrogen monoxide and nitrogen dioxide were all associated with an increase in ACS. 

The analysis also revealed that there were fewer EMS call outs in higher temperatures, including fewer for ACS.

There was no link, however, between ACS and other weather conditions, such as hours of sunshine, wind speed and cloud cover.

The study’s authors say: “In line with studies in other countries, we found significant correlations between meteorological parameters, air pollution and EMS dispatches due to ACS.

“These findings show that weather and air pollution influence people’s health, medical resources and healthcare costs.”

Ms Weingast adds: “Studies into how hospitals can be better prepared for weather and air-pollution-driven fluctuations in demand are urgently needed.

“The results of these will allow them to allocate staff and other medical resources based on the weather forecast and help ensure patients get the care they need.

“More research on lowering levels of air pollution is also necessary.”

Ambulance call-outs for heart attacks rise wh | EurekAlert!
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Meat-eating causes 75,000 Chinese deaths a year through pollution

Posted on December 20, 2021 by Respro® UK Ltd

Dietary shifts towards eating more meat causes 75,000 premature deaths a year in China through air pollution, a study shows. 

The study, published in the journal Nature Food, is the first to examine how changes in diets in China from 1980-2010 have increased emissions of agricultural ammonia (NH3) from fertilizer and livestock manure and to quantify the subsequent impacts on human health. 

Increases in meat production across the world over the past 50 years are most stark in East Asia, and particularly China. 

While more meat and less grain in diets is known to be bad for human health, this study is the first to quantify the impact of Chinese dietary changes through changes in agricultural practices that lead to poorer air quality.

Fine particulate matter air pollution poses a serious environmental risk to human health and is associated with a range of adverse health conditions, including respiratory conditions, lung cancer and cardiovascular diseases.

Agricultural ammonia (NH3) is emitted from nitrogen-based fertilizer and livestock manure that leaches off fields growing feed for livestock. This reacts with other airborne chemicals to form an important, toxic, component of fine particulate matter air pollution.

The research group was formed through the University of Exeter and the Chinese University of Hong Kong’s Joint Centre for Environmental Sustainability and Resilience (ENSURE), established in 2018 to promote international, inter-disciplinary research addressing some of the most important environmental challenges facing societies across the world. 

The researchers analyzed the changing patterns of food production and consumption in China and found that meat production over the period 1980-2010 increased 433% from 15 to 80 megatons.

A relatively small proportion was attributed to rising population levels with the remaining 60 megatons a result of changing diets. 

In the same time period, agricultural ammonia (NH3) emissions were found to have almost doubled, and the researchers estimated dietary changes were responsible for 63% of the rise, with the main driver being meat consumption. 

Based on this, they estimate that 5% of the 1.83 million Chinese deaths related to particle matter pollution in 2010 could be attributable to dietary changes, with the majority of that figure due to rising demand for meat. 

If Chinese diets were less meat-intensive, it would reduce agricultural ammonia emissions and reduce the harmful effects of air pollution on health for the entire population, the study found.

It estimated that if the average Chinese diet was replaced by the less meat-intensive diet recommended by the 2016 Chinese Dietary Guideline, ammonia emissions would decrease by 2.1Tg (teragrams) and 74,805 deaths could be avoided. 

Professor Xiaoyu Yan, Professor in Sustainable Energy Systems at the University of Exeter, said, “A top priority of China in the 1980s was to satisfy the people’s basic food demand.

“But now, as the problem of undernourishment has substantially decreased, a more sustainable path for production and consumption of food is urgently needed. The current trajectory of food choices in China needs to be altered to reduce its effects on both human and environmental health domestically and worldwide.” 

Co-author Professor Gavin Shaddick, Chair of Data Science and Statistics at the University of Exeter and Co-Director of the Joint Centre for Excellence in Environmental Intelligence, added, “We show that changing food consumption patterns can not only lead to improved health through more healthy diets but also has important co-benefits in terms of the environmental impacts of the agricultural sector and those additional effects on human health.” 

The researchers found there were great disparities between affluent and poorer members of society.

While the adverse health effects of eating more meat are largely experienced by those who can afford it, the effects due to increased levels of air pollution are experienced by those living on lower incomes in major agricultural regions such as Hebei and Henan. 

“These inequalities demonstrate an ethical dimension of meat consumption that deserves attention when developing public policy,” said Professor Yan. 

Meat-eating causes 75,000 Chinese deaths a year through pollution
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Specific components of air pollution identified as more harmful than others

Posted on December 17, 2021 by Respro® UK Ltd

New estimates can help reveal dangers of specific chemicals and inform policies to reduce the impact of air pollution on human health

Ammonium is one of the specific components of fine particulate matter (PM2.5), that has been linked to a higher risk of death compared to other chemicals found in it, according to a new study in the journal Epidemiology.

This finding stems from the largest global analysis of its kind, conducted by the London School of Hygiene & Tropical Medicine as part of the Multi-City Multi-Country (MCC) Collaborative Research Network.

Particulate matter is one of the most dangerous air pollutants – a complex mixture of extremely small particles and liquid droplets which can be directly emitted from natural sources, such as forest fires, or when gases emitted from power plants, industries and automobiles react in the air.

PM2.5 is airborne particulate matter smaller than 2.5 µm in diameter. It is usually believed the black carbon part of PM2.5 (mainly stemming from motorised vehicles) was the most harmful one. However, the team’s analysis of data in 210 cities across 16 countries from 1999-2017 found human health risks from air pollution vary depending on the proportion of different components in PM2.5.

One of the most dangerous components is ammonium (NH4+), originating mostly from fertiliser use and livestock. The risk of excess mortality from PM2.5 roughly increased from 0.6% to 1% when the proportion of ammonium increased from 1% to 20% in the mix1.

Cities with a larger concentration of ammonium in the mix, including Japanese cities Aikita, Aomori, Sendai, and Canadian cities London Ontario and Sarnia were associated with higher health risks. Specific action aimed at the agricultural and farming sectors may speed up the reduction of the negative health impacts of air pollution.

Dr Pierre Masselot, Research Fellow at the London School of Hygiene & Tropical Medicine and study lead, said: “We know black carbon found in fine particulate matter is a major public health issue. However, less is known about ammonium, which is created by chemical reaction of ammonia in the atmosphere and originates mainly from agricultural and farming practices. By using applied advanced statistical techniques to disentangle the relative effect of each component, we have revealed, surprisingly, that ammonium maybe more dangerous than other known PM2.5 components.”

Particulate matter is a major environmental risk factor to which the Global Burden of Diseases attributed between 4.1 and 5 million deaths worldwide in 2017. Evidence on short-term associations between exposure to fine particulate matter and total and cause-specific mortality are well established, although the risk varies across locations. To help reveal why this variation occurs, the study explores the role of the main chemical components of PM2.5 in this heterogeneity.

The team analysed the main components of PM2.5 including sulfate, nitrate, ammonium, black carbon, organic carbon, mineral dust and sea salt, and combined this with information on people’s age, GDP, poverty rate, temperature and green space, including trees in streets and gardens. Highly advanced statistical methods were used to model specific health effects across multiple locations.

The health risks associated to PM2.5 were found not to depend on the black carbon and organic carbon proportion and there was uncertainty about the role of sulfate. Health risks associated with PM2.5 were estimated to be lower in countries where nitrates were high in the concentration mix, such as UK, Germany and Scandinavia.

Dr Antonio Gasparrini, Professor of Biostatistics and Epidemiology at the London School of Hygiene & Tropical Medicine and senior author of the study, said: “The results from this study are important for future policies on air pollution. Identifying the most hazardous emission through state-of-the art modelling can help reveal which regions of the world to focus efforts on and how.

“Some PM is naturally present in the atmosphere, whereas others come from anthropogenic activities. Our work highlights the importance of ammonium as a harmful pollutant and specific strategies, such as increasing support for the agricultural sector to reduce emissions, could be vital for public health. However, we must remember that all these chemicals are hazardous. Reducing levels of air pollution across all sectors will improve health.”

The authors acknowledge limitations of the study including data availability, the focus on high income countries, and heterogeneity in effects across locations.

Specific components of air pollution identifi | EurekAlert!
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Air pollution can cause serious health consequences to more than 600 million people in South Asia

Posted on December 16, 2021 by Respro® UK Ltd

With another smoggy winter hanging over the vast and thickly populated Indo-Gangetic plains, there are fears of serious health consequences to more than 600 million people living in northern India and Nepal as well as in eastern Pakistan and Bangladesh.

Delhi, the biggest city in the region, showed an average air quality index (AQI) of 376 in November forcing the closure of schools that had just begun to reopen after COVID-19 restrictions.

Last year, the November AQI average for the region was 327 while for the same month in 2019 it was 312, indicating a rising trend that attracted the ire of the Supreme Court.

Delhi saw 11 ‘hazardous’ air quality days last month, the worst since the Central Pollution Control Board began the AQI measurement system in 2015. The hazardous category indicates an AQI of 301—500. The ‘good’ category is 0—50 which is followed by ‘moderate’ at 51—100 while anything in the 101—301 AQI range is considered unhealthy.

“We feel that nothing is happening… the pollution keeps increasing,” India’s chief justice N.V. Ramana said during a hearing on 2 December on deteriorating air quality in New Delhi and other north Indian cities. “If as many efforts as you (government) are claiming have been made, then why is pollution increasing?”

While wrangling goes on year after year over the source of the high levels of toxic pollutants in Delhi’s air and who is to be held responsible, there appears to be little public awareness of the consequences of inhaling particulate matter and other constituents of smoggy air.

“There is little awareness that most of the harm caused by air pollution is to the cardiovascular system — epidemiological studies have shown a strong association between air pollution and cardiovascular diseases including stroke.” Vipul Gupta, Chief of Neurointerventional Surgery Unit

Particulate matter that is smaller than 2.5 microns in size (PM 2.5) can increase risk of blockage of the carotid artery, the main blood vessel supplying the brain, says Gupta. “Even short-term exposure to PM 2.5 can lead to hospitalisation and death due to stroke.”

The WHO’s global air quality guidelines issued in September recommend tolerance levels for PM 2.5 at an annual average of five micrograms per cubic meter. Delhi’s average PM 2.5 levels in 2020 was 93 micrograms per cubic meter — 16.8 times the WHO limit — according to a paper released by the Council on Energy Environment and Water in June.

The Air Quality Life Index, released by the Energy Policy Institute, University of Chicago, in September, describes South Asia as “consistently the most polluted region with the people there seeing their lives shortened by an average of five years relative to what it would be if the region met the WHO guidelines”.

India alone has more than 510 million people living in the Indo-Gangetic plains who are on track to lose more than nine years of life expectancy if 2019 pollution levels persist, the report said.

For Bangladesh, residents may live 5.4 years longer if pollution levels meet the WHO guidelines, while residents of its capital city Dhaka could live 7.7 years longer. Those living in the polluted Terai region of Nepal stand to gain 6.7 years. In Lahore, Pakistan’s second-largest city, residents may live five years longer if the WHO guidelines are followed.

“While the exact source of smog over the Indo-Gangetic plains is still being investigated, it is evident that residents of the region, including Kathmandu, are severely affected by respiratory and cardio-vascular ailments during winter,” says Bhupendra Das, a pollution researcher at the Institute for Advanced Sustainability Studies, in Potsdam and at Tribhuvan University, Kathmandu.

“The winter months see ‘temperature inversion’ which traps particle pollutants and prevents the dispersion,” he adds. “If the pollutants come from burning plastic waste they are likely to release chlorides, including dioxins and furans which are among the most toxic substances known to man.”

The WHO says particulates cause health problems according to source, size and physical and chemical properties and that the wide variability makes research difficult. Additionally, airborne particulate matter is constantly on the move and undergoes chemical and physical changes in the atmosphere.

Some of the complexity of studying PM 2.5 is evident in research conducted by the Indian Institute of Technology – Madras and published January in Nature Research that showed how pollution over Delhi is different from that in other cities for its high chloride content that was responsible for the haze, lowered visibility and health impacts.

The authors suggest that local concentrations of hydrochloric acid, emitted from burning plastic, contributed significantly to reduced visibility. “Our work implies that identifying and regulating gaseous hydrochloric acid emissions could be critical to improving visibility and human health in India.”

In 2019, the Indian government declared a “war on pollution” and launched a National Clean Air Programme with a declared goal of reducing particulate pollution by 20—30/ per cent by 2024 from 2017 levels, although the situation has only worsened since.

In August the local state government in Delhi began installing smog towers at key areas of the city to vacuum up particulate matter and pollutants. However, these 24-meter high structures have not performed at the claimed 80 per cent efficiency with readings for late November and December showing efficiency rates of less than 40 per cent.

In fact, one tower showed the filtered air bearing 300 milligrams of particulate matter per cubic meter — a far cry from the safe limit of five micrograms per cubic meter prescribed by the WHO, making little difference to the number of years of life expectancy that Delhi residents stand to lose.

Air pollution can cause serious health consequences to more than 600 million people in South Asia
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The tightened recommendations for air quality by WHO pose new challenges even to Finland

Posted on December 15, 2021 by Respro® UK Ltd

Air pollution concentrations in Finland exceed most of the values of WHO’s new air quality guidelines. The situation is the worst with nitrogen dioxide from exhaust emissions of transport.

The World Health Organisation WHO has updated its air quality guidelines. The new guidelines were made to protect health. They are strict even for Finland, which is well known for its good air quality. For example, the concentrations of nitrogen dioxide in the largest Finnish cities can be even two or three times as high as the new WHO guideline values. In Finland, concentrations of fine particles, inhalable particles and ozone are also on a level which is harmful to human health.

To update the guidelines, WHO has analysed new research data on the health effects of air pollutants accumulated since 2005. The guidelines are meant for global use. WHO encourages highly polluted countries with a number of milestones.

Reaching the new guideline values is realistic in Finland

According to international comparisons, air quality in Finland is good, but air pollution can sometimes affect air quality even here.

“In Finland, the pursuit of these new, more stringent guideline values is still realistic. However, the concentrations of fine particles and ozone are heavily influenced by long range transport and reducing these concentrations can only be achieved through European and global emission control measures,” says Pia Anttila, Research Scientist at the Finnish Meteorological Institute.

On the other hand, road transport emissions such as nitrogen dioxide (i.e., exhaust gases) and inhalable particles (i.e., street dust), are a local problem. Their concentrations can be reduced by local measures. WHO guidelines are exceeded especially in busy urban environments. For example, the annual concentration values of nitrogen dioxide in the busiest streets of the Helsinki city centre are approximately three times higher than the guideline value.

“Emissions of exhaust gases are declining with new low-emission vehicles, but street dust will remain a problem also in the coming decades. Reducing particulate emissions from small-scale wood burning is also slow,” says Hanna Manninen, Head of Air Quality Unit at Helsinki Region Environmental Services HSY.

WHO also recommends measuring the quantitative concentrations of black carbon and particulate matter even though they have not yet been given guideline levels. In Finland, these have been measured for a long time at the background stations of the Finnish Meteorological Institute, at the research stations of the University of Helsinki, and in the Helsinki Metropolitan Area at the measurement stations of HSY. The concentrations of black carbon are increased especially by small-scale wood burning and emissions from old diesel cars.

More evidence of health effects of air quality at low concentration levels

As air quality has improved globally, it has been confirmed that air pollution affects health already at low concentrations.

“The updated WHO guidelines are based on strong evidence of the adverse health effects of long-term exposure when concentration guideline levels are exceeded. However, adverse health effects have also been observed at lower concentration levels than those in guidelines,” says Senior Researcher Otto Hänninen from the Finnish Institute for Health and Welfare.

The Finnish Meteorological Institute has compiled a report on the state of air quality in Finland in relation to the new WHO guidelines. The report is based on statutory monitoring results the quality of which has been assured. The monitoring is carried out by cities (partly in cooperation with industry) and the Finnish Meteorological Institute.

The tightened recommendations for air quality by WHO pose new challenges even to Finland – Finnish Meteorological Institute
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