Browsing by Author "Sidra, S."

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    Air quality (particulate matter) at heavy traffic sites in Lahore, Pakistan
    (Pakistan Agricultural Scientists Forum, 2015-06-30) Ali, Z.; Rauf, A.; Sidra, S.; Nasir, Zaheer A.; Colbeck, Ian
    The transport sector is a major contributor towards air pollution, particularly in the urban areas. Air quality at two major heavy traffic roads of Lahore, Pakistan was evaluated. Particulate matter (PM) was monitored for twenty four hours at each sampling sites. The total number of vehicles passing was also noted and correlated with the PM levels. The vehicular congestion as well as meteorological factors had a positive association with the PM levels. PM concentrations were significantly higher than the WHO recommended levels. It is necessary to control emissions from vehicular exhaust to reduce the level of pollutants in the ambient air in urban areas.
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    Changes in particulate matter concentrations at different altitudinal levels with environmental dynamics
    (Pakistan Agricultural Scientists Forum, 2015-06-30) Zona, Z.; Ali, Z.; Sidra, S.; Nimra, A.; Ahmad, M.; Aziz, K.; Zainab, I.; Quratulain; Ansari, B.; Raza, S. T.; Nasir, Zaheer A.; Colbeck, Ian
    Ambient air quality is defined not only by the source strength but a variety of meteorological parameters as well. In the current study, ambient concentrations of PM along with temperature and relative humidity levels were monitored at seven different locations of Pakistan. A DustTrak DRX (Model 8533, TSI Inc.) was employed for twenty four hours real time monitoring of particulate matter at the selected sites. A considerable variation was observed in the 24 hour trend of particulate matter (PM) at different locations owing to variation in meteorological conditions due to different altitudes and seasons, and natural and anthropogenic sources in the vicinity. The highest average concentrations of PM2.5 (407 mu g/m(3)) were observed at highest elevation (Makra Peak, Shogran, 3089 m) while lowest averages (102 mu g/m(3)) were obtained at the seaside (Hawks Bay, Karachi, 0 m). On the other hand PMTotal fraction exhibited highest levels at site B (506 mu g/m(3)) and lowest at Site A (121 mu g/m(3)). Correlation factors were determined for PM and meteorological parameters at each location. More research needs to be conducted to have a comprehensive knowledge about the physical parameters controlling particulate dispersal at different altitudes within the country.
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    Comparative ambient and indoor particulate matter analysis of operation theatres of government and private (trust) hospitals of Lahore, Pakistan
    (Pakistan Agricultural Scientists Forum, 2015-06-30) Nimra, A.; Ali, Z.; Khan, M. N.; Gulshan, T.; Sidra, S.; Gardezi, J. R.; Tarar, M. R.; Saleem, M.; Nasir, Zaheer A.; Colbeck, Ian
    The link between infection and indoor air quality (IAQ) in operating theatres is well established. The level of airborne particulate matter (PM) in operating theatres in Pakistan has not yet been studied comprehensively. Monitoring of both indoor (operating theatre) and outdoor concentrations of PM in both activity and non-activity time periods was done using a DUSTTRAK Aerosol Monitor (TSI Model 8520) and DRX Aerosol Monitor (TSI Model 8533) for 24 hours. Two hospitals in Lahore were selected: Services Hospital (government – site 1) and Shalamar Hospital (private – site 2). The highest concentration of PM was observed in the orthopaedic operating theatre at site 1 during working hours with an average concentration of 757(±540), 809(±58), 824(±585), 875(±586) and 970(±581) µg/m³ of PM1 ,PM2.5, PM4, PM10and PMTotalrespectively while the average PM2.5outdoor concentration was 294 µg/m3 . The minimum average PM concentration was found in the orthopaedic operating theatre at site 2 during working hours: 18(±8), 19(±8), 20(±9), 26(±9) and 39(±9) µg/m³ for PM1, PM2.5, PM4, PM10 and PMTotal respectively. The use of vertical laminar air flow ventilation strategy was found to be an effective measure in reducing PM levels and it might be possible to predict the air quality of operating theatres by determining PM dust load. Factors such as ventilation system, door opening /closing rates, building age, possible sources of infiltration, number of people present in the operating area all play a role in influencing PM concentrations in operating theatres.
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    Measurement of NO2 indoor and outdoor concentrations in selected public schools of Lahore using passive sampler
    (Pakistan Agricultural Scientists Forum, 2016-06-30) Mehmood, T.; Ali, Z.; Noor, N.; Sidra, S.; Nasir, Zaheer A.; Colbeck, Ian
    Higher levels of NO2 are a danger to human health especially for children. A seven day study was carried to find out the ambient concentrations of NO2in 27 schools of Lahore with the help of passive samplers. In each school three sites were selected, viz: laboratory, corridor and outdoors. After 7 days exposure the tubes were subjected to spectrophotometric analysis. Results showed that the maximum values measured in laboratory, outdoor and corridors were 376µg/m3 , 222µg/m3 and 77µg/m3 . Minimum values for laboratory, outdoor and corridors were 10µg/m3 , 20µg/m3 and 8µg/m3 . Factors affecting these values were laboratory activities and proximity to main roads. These values were significantly higher than the standard values defined by EPA. Therefore children in schools were at risk of developing health complications.
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    Microbial dynamics during various activities in residential areas of Lahore, Pakistan
    (Pakistan Agricultural Scientists Forum, 2015-06-30) Sidra, S.; Ali, Z.; Sultan, S.; Ahmed, D.; Colbeck, Ian; Nasir, Zaheer A.
    Bioaerosols are ubiquitous in the atmosphere with their levels affected by a variety of environmental factors as well as type of activities being carried out at any specific time. The present study investigated how indoor activities influence bioaerosol concentrations in five residential houses of Lahore. Agar coated petri plates were exposed face upwards for twenty minutes in kitchens and living rooms during activity and non-activity periods. The temperature and relative humidity levels were noted as well. The bioaerosol concentrations in kitchens during the activity time ranged between 1022 to 4481 cfu/m3 and in living rooms from 1179 to 3183 cfu/m3 . Lower values were observed during non-activity periods. A paired-t test revealed a significant difference in bacterial loads during activity and non-activity times in both micro-environments (p = 0.038 in kitchen and p = 0.021 in living room). The predominant species identified were Micrococcus spp., Staphylococcus spp., and Bacillus spp. which are a common constituent of the indoor environment and are known to be opportunistic pathogens as well.
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    Monitoring of particulate matter concentrations at high altitude ecosystems of Pakistan and China
    (Pakistan Agricultural Scientists Forum, 2015-06-30) Zainab, I.; Ali, Z.; Ahmad, M. S.; Zona, Z.; Raza, S. T.; Sidra, S.; Nasir, Zaheer A.; Colbeck, Ian; Liu, W.
    Particulate matter exhibits different behavior with altitude. A comparative analysis was carried out to monitor PM1, PM2.5, PM4, PM10and PMTotal at elevations above 3000 m in both China and Pakistan. Real time monitoring of PM was carried out at both sites using a DustTrak DRX (model 8533, TSI Inc.) for 24 hours each. In Pakistan, the average value of PMTotal was 415+ 16 µg/m³ while in China the value was considerably lower i.e. 110+ 57 µg/m³. The 24-hour mean values recorded were well above the WHO recommended limit of 25 µg/m³. These results indicate that, even at sites some distance from anthropogenic sources, PM concentrations still pose a health risk.
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    PM2.5 arising from different cooking fuels in rural residential houses
    (Pakistan Agricultural Scientists Forum, 2015-06-30) Amant, H.; Ali, Z.; Sidra, S.; Nasir, Zaheer A.; Colbeck, Ian
    A study was conducted in the rural area of Kasur district, Pakistan to monitor PM2.5levels generated by different fuel types. Three rural houses were selected, one burning wood as primary cooking fuel while the other two employed LPG for cooking purposes. Burning of wood caused PM levels to increase 37 times above the WHO recommended limit of 25 µg/m³ while smoking also contributed significantly increasing PM levels up to 48 times than the recommended limit. LPG was observed to increase the levels up to 14 times. It is important to promote the use of cleaner fuels as increased exposure to PM levels generated by biomass fuel burning can have a significant impact upon human health.
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    Seasonal variation of particulate matter in the ambient conditions of Khanspur, Pakistan
    (Pakistan Agricultural Scientists Forum, 2015-06-30) Ali, Z.; Shahzadi, K.; Sidra, S.; Zona, Z.; Zainab, I.; Aziz, K.; Ahmad, M.; Raza, S. T.; Nasir, Zaheer A.; Colbeck, I.
    Concentrations of particulate matter tend to vary with shifting seasons. Levels of particulate matter were monitored during the summer and winter season in Khanspur, a high altitude tourist resort in Pakistan. A DustTrak DRX (Model 8533, TSI Inc.) and Kestrel 4500 Pocket Weather Tracker (Nielsen- Kellerman) were installed at selected site in Khanspur and run for 24 hours. During summer the 24- hour average concentrations of PM1, PM2.5, PM4, PM10 and PMTotalwere 96 ± 26.42, 106± 29.02, 118± 33.3, 163± 52.5 and 209 ± 79.5 µg/m³ while these were considerably lower during the winter season for the same size fractions (62 ± 48.6, 63± 49.3, 63 ± 49.5, 65.33 ± 50.06 and 66.96 ± 50.78µg/m³). A one way ANOVA was applied on the obtained data and it was concluded that seasons have a substantial impact upon PM concentrations. Moreover, this study provides evidence that seasonal variation of particulate matter is influenced by meteorological parameters.
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    Spatial and temporal variations in indoor air quality in Lahore, Pakistan
    (Springer, 2018-05-21) Colbeck, Ian; Sidra, S.; Ali, Z.; Ahmed, S.; Nasir, Zaheer A.
    Indoor air pollution is a significant economic burden in Pakistan with an annual cost of 1% of gross domestic product. Moreover, according to the World Health Organization 81% of the population use solid fuels with 70,700 deaths annually attributable to its use. Despite this situation, indoor air pollution remains to be recognized as a hazard at policy level in Pakistan and there are no standards set for permissible levels of indoor pollutants. The current study was designed to monitor the indoor air quality in residential houses (n = 30) in Lahore, Pakistan. PM2.5 and bioaerosols were monitored simultaneously in the kitchens and living rooms. Activity diaries were kept during the measurement periods. It was observed that cooking, cleaning and smoking were the principal indoor sources while infiltration from outdoors, particularly in the semi-urban and industrial areas, also made significant contributions. Maximum and minimum air change rate per hour was determined for each microenvironment to observe the influence of ventilation on indoor air quality. Lahore has a low-latitude semi-arid hot climate, and a significant impact of season was observed upon bacterial and fungal levels. It was also observed that the PM2.5 levels rose during the colder months and decreased significantly during the summer season. Low ventilation rates during the winter season as well as meteorological factors resulted in elevated PM levels.