IMPACT OF URBAN LAND USES AND ACTIVITIES ON THE AMBIENT AIR QUALITY IN KLANG VALLEY, MALAYSIA FROM 2014 TO 2020

Oliver Hoon Leh Ling; Marlyana Azyyati Marzukhi; Jie Kwong Qi; Nurul Ashikin Mabahwi

doi:10.21837/pm.v18i14.829

Authors

Oliver Hoon Leh Ling Environmental & Social Health Research Group Faculty of Architecture, Planning & Surveying UNIVERSITI TEKNOLOGI MARA
Marlyana Azyyati Marzukhi Environmental & Social Health Research Group Faculty of Architecture, Planning & Surveying UNIVERSITI TEKNOLOGI MARA
Jie Kwong Qi Environmental & Social Health Research Group Faculty of Architecture, Planning & Surveying UNIVERSITI TEKNOLOGI MARA
Nurul Ashikin Mabahwi Graduate School of Engineering and Science SHIBAURA INSTITUTE OF TECHNOLOGY Japan

DOI:

https://doi.org/10.21837/pm.v18i14.829

Keywords:

air pollutant index (API), COVID-19, health, lockdown, movement control order (MCO), urban land use

Abstract

Ambient air in the urban area normally is more polluted than less developed areas. This is due to the concentration of urban activities, such as industrial, transportations and commercial or business activities. A study about the impact of urban land uses and activities on the levels of air pollutants in Malaysia’s most urbanised and most developed region that is Klang Valley was conducted. Data of Air Pollutant Index (API) and average concentration of selected air pollutants were used to analyse the ambient air quality of the selected five (5) cities or towns in Klang Valley. The air quality condition of the five (5) cities or towns were related to the land use distributions of the cities or towns with a purpose to understand the impact of land uses on the ambient air quality. Furthermore, the changes of ambient air quality before and after Movement Control Order (MCO) were analysed to examine the impact of human activity changes on the ambient air quality. The study found that a city or a town with more industrial and transportation land uses with fewer greens was more polluted than the area with less industrial and transportation land uses with more greens. However, this finding did not apply to all areas due to effect of winds on the distribution of air pollutants. Besides that, because of MCO, most people stayed at home with the mode of “work from home” that caused air pollutant levels in urban areas to decrease due to less urban activities. Nevertheless, there was a risk of an increase in air pollution levels in residential areas due to the concentration of activities, especially driving motor vehicles in residential areas. A recommendation is given to encourage “work from home” and reduce dependency on auto-mobile in residential areas in order to improve the air quality in urban areas.

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References

Abdullah, S., Monsor, A. A., Mohd Napi, N. N. L., Wan Monsor, W. N., Ahmed, A. N., Ismail, M., Ahmad Ramly, Z. T. (2020). Air quality status during 2020 Malaysia Movement Control Order (MCO) due to 2019 novel coronavirus (2019-nCoV) pandemic. Science of the Total Environment, 729, 139022.

Chen, B., Kan, H. (2008). Air pollution and population health: a global challenge. Environmental Health and Preventive Medicine, 13(2), 94-101.

Chen, T., Li, M., Luo, L., Deng, S., Zhou, R., Chen, D. (2020). Simulating the effects of land urbanisation on regional meteorology and air quality in Yangtze River Delta, China. Applied Geography, 120, 10228.

Department of Environment, Malaysia (DOE). (2013). General Information of Air Pollutant Index. Malaysia: Department of Environment.

Department of Environment, Malaysia (DOE). (2014). Environmental Quality Report 2014. Malaysia: Department of Environment.

Department of Environment, Malaysia (DOE). (2015). Environmental Quality Report 2015. Malaysia: Department of Environment.

Department of Environment, Malaysia (DOE). (2016). Environmental Quality Report 2016. Malaysia: Department of Environment.

Department of Environment, Malaysia (DOE). (2017). Environmental Quality Report 2017. Malaysia: Department of Environment.

Department of Environment, Malaysia (DOE). (2018). Environmental Quality Report 2018. Malaysia: Department of Environment.

Department of Environment, Malaysia (DOE). (2020a). Status kualiti udara sebelum dan sepanjang tempoh perintah kawalan pergerakan oleh Jabatan Alam Sekitar. Malaysia: Department of Environment.

Department of Environment, Malaysia (DOE). (2020b). Perbandingan bacaan IPU dan pencemar udara untuk stesen terpilih bagi tahun 2019 dan 2020 dalam tempoh sebelum dan semasa perintah kawalan pergerakan (1 Mac hingga 30 April). Malaysia: Department of Environment.

Department of Environment, Malaysia (DOE). (2020c). Population Quick Info. Malaysia: Department of Environment. Google Inc. (2015). Google Earth. Google Inc. (2020). Google Maps.

Kang, J. E., Yoon, D. K., Bae, H. J. (2019). Evaluating the effect of compact urban form on air quality in Korea. Urban Analytics and City Science, 46(1), 179-200.

Kanniah, K. D., Kamarul Zaman, N. A. F., Kaskaoutis, D. G., Latif, M. T. (2020). COVID-19’s impact on the atmospheric environment in the Southeast Asia region. Science of the Total Environment, 736, 139658.

Kasim, O. F., Abshare, M. W., Mukuna, T. E., Wahab, B. (2018). Land use and ambient air quality in Bahir Dar and Hawassa, Ethiopia. Air, Soil and Water Research, 11, 1-10.

Khor, V., Arunasalam, A., Azli, S., Khairul-Asri, M. G., Fahmy, O. (2020). Experience from Malaysia during the COVID-19 Movement Control Order. Urology, 141, 179-180.

Ling, O. H. L., Ting, K. H., Shaharuddin, A., Kadaruddin, A., Yaakob, M. J. (2010). Urban growth and air quality in Kuala Lumpur City, Malaysia. Environment Asia, 3(2), 123-128.

Ling, O. H. L., Siti Nur Afiqah, M. M., Noralizawati, M. (2014). Air quality and land use in urban region of Petaling Jaya, Shah Alam and Klang, Malaysia. Environment Asia, 7(1), 134-144.

Majlis Bandaraya Petaling Jaya. (2011). Local Plan Petaling Jaya.

Majlis Bandaraya Shah Alam. (2012). Local Plan Shah Alam.

Majlis Daerah Kuala Langat. (2011). Local Plan Kuala Langat.

Majlis Daerah Kuala Selangor. (2015). Local Plan Kuala Selangor.

Majlis Perbandaran Klang. (2011). Local Plan Klang.

Malaysian Meteorological Department. (2014). The wind rose.

Mohd Nadzir, M. S., Ooi, M. C. G., Alhasa, K. M., Bakar, M. A. A., Mohtar, A. A .A., Nor, M. F. F. M., Latif, M. T., Hamid, H. H. A., Ali, S. H. M., Ariff, N. M., Anuar, J., Ahamad, F., Azhari, A., Hanif, N. M., Subhi, M .A., Othman, M. and Nor, M. Z. M. (2020). The Impact of Movement Control Order (MCO) during pandemic COVID-19 on local air quality in an urban area of Klang Valley, Malaysia. Aerosol Air Qual. Res. 20, 1237–1248. https://doi.org/10.4209/aaqr.2020.04.0163.

Nurul Ashikin, M., Ling, O. H. L., Dasimah, O. (2015). Urban air quality and human health effects in Selangor, Malaysia. Procedia-Social and Behavioral Sciences, 170, 282-291.

Nurul Ashikin, M., Ling, O. H. L., Siti Nur Afiqah, M. M., Kadaruddin, A. (2018). Air quality-related human health in an urban region. Case study: State of Selangor, Malaysia. Environment Asia, 11(1), 194-216.

Nurul Ashikin, M. (2017). Urban air quality and the effects on human health in urban region. Case study: Selangor State, Malaysia. (Masters Thesis). Malaysia: Universiti Teknologi Mara.

Ooi, M. C. G., Chan, A., Ashfold, M.J., Oozeer, M. Y., Morris, K. I., Kong, S. S. K. (2019). The role of land use on the local climate and air quality during calm inter-monsoon in a tropical city. Geoscience Frontier, 10(2), 405-415.

Prime Minister’s Office of Malaysia (PMO). (2020). Restriction of Movement Order. Prime Minister’s Office of Malaysia Official Website, 16 March 2020.

Rafia, A., Mohd Nasir, H., Noor Akma, I. (2003). Review of air pollution and health impacts in Malaysia. Environmental Research, 92(2), 71-77.

Sham, S. (1988). Meteorological factors in air quality monitoring, assessment and management with special reference to urban areas in the low tropics. Ilmu Alam, 17, 3-24.

Shi, Y., Bilal, M., Ho, H. C., Omar, A. (2020). Urbanisation and regional air pollution across South Asian developing countries – A nationwide land use regression for ambient PM2.5 assessment in Pakistan. Environmental Pollution, 266(2), 115145.

Siti Nurazlina. Bandar beracun ancam penduduk. (2011). Utusan online, 3 October 2011.

Siti Zawiyah, A., Mohd Talib, L., Aida Shafawati, I., Liew, J., Abdul Aziz, J. (2010). Trend and status of air quality at three different monitoring stations in the Klang Valley, Malaysia. Air Quality, Atmosphere & Health, 3, 53-64.

Suhaimi, N. F., Jalaludin, J., Latif, M.T. (2020). Demystifying a possible relationship between COVID-19, air quality and meteorological factors: Evidence from Kuala Lumpur, Malaysia. Aerosol and Air Quality Research, 20, 1520-1529.

Sun, L., Wei, J., Duan, D. H., Guo, Y. M., Yang, D. X., Jia, C., Mi, X. T. (2016). Impact of land-use and land-cover change on urban air quality in representative cities of China. Solar-Terrestrial Physics, 142, 43-54.

Tang, K. H. D. (2020). Movement control as an effective measure against Covid-19 spread in Malaysia: An overview. Nature Public Health Emergency Collection, 13, 1-4.

United Nations (UN) – Department of Economic and Social Affairs, Population Division. (2001). World population monitoring 2001 – Population, environment and development. New York: UN.

World Health Organization (WHO). (2016). WHO | Ambient (outdoor) air quality and health. [cited 29 April 2016]. Available from: http://www.who.int/mediacentre/factsheets/fs313/

IMPACT OF URBAN LAND USES AND ACTIVITIES ON THE AMBIENT AIR QUALITY IN KLANG VALLEY, MALAYSIA FROM 2014 TO 2020

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