A Quantitative Assessment of Air Particulate Matter Concentration and Its Correlation with the Climatic Factors of Dinajpur City, Bangladesh

Particulate matter (PM) is the air pollutant that poses the most significant risk to human health compared to other measured criteria pollutants. One of our main goals was to assess the quantities of particulate matter (0.3-10µm) in the Dinajpur municipality's sensitive zones, roads, and residential and commercial buildings. Light scattering particle counters, the Extech VPC-300, were used to measure particulate matter and climatic data at 26 distinct locations in Dinajpur. R 4.2.2 and the data analysis tool in Microsoft Excel were utilized for the statistical analysis. The highest values for PM 0.3, 0.5, 1, 2.5, 5, and 10 µm are 335195, 138118, 37965, 12995, 2087, and 2507 and medium value is accordingly 221304, 71873, 16681, 3393, 361 and 454, respectively. The PM 0.5 μm particle ran ge, which includes 12 samples, is highly concerned and getting closer to the hazardous red polluted zone. Most places of PM 2.5 µm exceed the 2000 particles, which are hazardous for people. The link between climatic variables and particulate matter (PM 0.5-10 µm) significantly correlated with temperature. Humidity and PM (0.3-10 µm) measurements in the study area show a negative correlation. According to observations, factors contributing to the high PM concentration include excessive human movement, combustion byproducts of black smoke, road dust, waste, garbage in every possible place, and rice mill industry emissions


INTRODUCTION:
The relationship between air pollution and climate change negatively impacts the environment.Air pollution is the presence of harmful substances in the atmosphere that can negatively affect human health.Every person has the right to access clean air free of all types of contaminants.In 1987, the World Health Organization (WHO) published guidelines for air quality, mentioning the limits of all the parameters or substances that remain in the air (WHO, 1987).Air pollutants can take many forms, including gases, such as carbon monoxide (CO), carbon dioxide (CO 2 ), sulfur dioxide (SO 2 ), oxides of nitrogen (NOx), and particulate matter (PM 0.3-10), which consists of tiny particles of dust, dirt, soot, and other materials suspended in the air (WHO, 2018).Numerous negative consequences that these pollutants may have include respiratory and cardiovascular issues, decreased visibility, acid rain, harm to crops and ecosystems, and many others (Wambebe and Duan, 2020).Both industrialized and developing nations are affected by the global issue of air pollution, a severe public health concern that causes millions of premature deaths annually (Hei, 2019).Particulate matter (PM) is a complex mixture of solid and liquid particles suspended in the air.These particles vary in size, shape, and content and can be naturally occurring or man-made.Between PM 2.5 μm and PM10 μm are the size ranges most frequently examined.Fine particles are those with a diameter of 2.5 μm or less, and coarse particles have a diameter of 10 μm or less.
WHO reported that more than 91% of people in the world live in poor air quality areas concerning particulate matter (PM2.5 and PM10 µm), sulfur dioxide (SO 2 ), ozone (O 3 ), and nitrogen dioxide (NO 2 ) (WHO, 2018).PM2.5 µm is considered more harmful to human health because it can penetrate deep into the lungs and even enter the bloodstream.In so many cities where factories and automobiles are continuously operating, the air quality in these cities is inferior.The Atomic Energy Centre, Dhaka (AECD), a division of the Bangladesh Atomic Energy Commission (BAEC), monitors PM 2.5-10µm as a part of the regional air quality monitoring network of 15 countries in Southeast Asia (Hopke et al., 2008).
According to studies, Dhaka has high levels of fine particulate matter, which has an ongoing negative influence on public health (Gurjar et al., 2010).
According to a 2012 report from the Department of Environment, air pollution is one of main environmental issues of Bangladesh (DoE, 2012).Bangladesh was listed as having the fourth-highest level of pollution among the 91 nations in the world (Haque and Rinkey, 2019).The study area, Dinajpur, has been growing at a rate that has coincided with the growth of the city and is also experiencing air pollution because of trade, commerce, shopping, education, culture, and other activities.The primary goals are to analyze the particulate matter PM (0.3-10 µm) condition in the Dinajpur municipality's sensitive zones, roadways, and commercial areas and to classify its sources.We also focus on the correlation between the PM and different climatic parameters.

METHODOLOGY: Study Area
On a stable geographic topography, Dinajpur City is situated at 25°35′ N latitude and 88°40′ E longitude on the eastern bank of the Punarbhaba River.According to the census performed in 2023, the Dinajpur municipality has a total area of around 24.50 square kilometers, a population density of 7247 people per square kilometer, and 1,86,727 inhabitants (GoB, 2023).
] Map 1: Sampling location of PM (0.3-10) of Dinajpur municipality.The correlation value between climatic variables and particulate matter (PM 0.5-10 µm) (Table 2) is significantly correlated with temperature.Humidity and PM (0.3-10 µm) had a weak or negative correlation when measured in the study area.It implies that while PM spreads more quickly through the air when temperatures rise, its spreading is inversely correlated with increasing humidity levels.The linear regression analysis of temperature and particulate matter (PM 0.3-10 µm) is shown in Fig. 1.
The coefficient shows that for every additional degree Celsius, PM increases by 0.3 on average.However, the r 2 values for PM 0.5, 1, 2.5, 5, and 10 µm are often low and have poor relationships with temperature.However, its significance at 1-5% indicates that particles have floated on air and that the dissemination of air particles is dependent on environmental factors.It shows that there are a few severely harmful regions, and the bulk of samples fall between the 200000-250000 particle range, which is regarded as a range of danger for humans.Similarly, Fig. 2(b) indicates that this histogram is unimodal, symmetric, and has no outlier.The PM 0.5 µm particle range 60000-80000 comprises of 12 samples, and while that range is cautious, it is moving into the dangerous red zone (Table 3).Fig. 2(c) states that the majority of the sampling regions are covered by PM 1 µm ranges of yellow categories (cautious) and that air movement spreads those to the entire city.The fact that over half of the sample point falls into the 20000-41000 red category (dangerous) range raises concerns.However, the PM 2.5 µm histogram indicates that these places PM 2.5 µm concentrations cover the red (hazardous) limits, which are extremely unhealthy for the local population.The majority of PM 5 µm readings are higher than the yellow and red zones, which denote low levels of air quality.The lowest number for PM 10 µm is 52 particles, which is very close to the yellow categories.However, another particle value covers the yellow (Cautious) category and exceeds the green (excellent) categories.It shows that after departing the warning zone, the highest sampling locations moved into dangerous regions.We observed that Butibabur Moor, a mixed-use area with both residential and commercial properties, had the highest rates of PM 1, 2.5, 5, and 10 µm particles.The values of 37965, 12995, 2087, and 2507 PM show that they are all in the red range, which is exceedingly harmful to human health.In addition to more residential areas, some of which are also outlined in yellow and red.Airborne particles often stand close to the red category and cross the yellow line in vulnerable regions, such as hospitals and schools.Because it affects patients' bodies quickly, it is a major problem for elderly people, babies, and other residents.However, gathering areas that provide a risk, such as bus and commercial terminals, are classified as red.In those areas, the highest concentration of PM 2.5 µm particles is 9268, while the lowest is 1113.The primary causes of rising airborne particles include people assembling, road dust and burning fuel from moving automobiles, transport, and brick crushing.Since the production of rice is the primary industry in this city, one of the main sources of PM was also a nearby automatic rice mill that released smoke and ash into the environment.In comparison to dry or rainy seasons, the air pollution level of Bangladesh gets worst in the winter season (Shams, 2017).The most lethal particles are those with a diameter of fewer than 10 micrometers because they can penetrate deeply into your lungs and some may even enter your bloodstream (EPA, 2022).Extremely sensitive people may think about restricting back on extended or strenuous activity in yellow zones.However, anyone with heart or lung illness, elderly people, and children should avoid prolonged or strenuous activity in red-flagged regions (EPA, 2022).Health impacts from particle exposure can take many different forms.Lowered lung functions, the formation of chronic bronchitis, and even early mortality have all been associated with long-term exposures, such as those persons who spend a lot of time in high-particle environments (American Lung Association, 2023).

CONCLUSION:
This research indicates that the Dinajpur municipality has high PM levels, which continue to have detrimental effects on public health.The vast majority of the sampling sites have air quality levels that are unhealthy to hazardous, exceeding green categories and changing from yellow to red zones.A risk to the public's health as well as that of patients, children, and expectant mothers exists because the red categories are close to the residential and sensitive zone.The transportation sector, roadside dust, and auto rice mill plants all released significant amounts of particulate matter.The transboundary transfer of PM, however, cannot yet be quantified.The quality of the air is greatly harmed by a lack of frequent monitoring and inspection of the major PM sources which must be addressed and evaluated appropriately.

Table 1 :
The Sampling point characteristics and weather parameters across the Dinajpur Municipality.

Table 2 :
A matrix showing the correlations between climatic variables and Particulate Matter (PM 0.3-10 µm).

Table 3 :
Air quality standard referenced in Extech manual, 2016.