Md Firoz KhanAhmad Hazuwan HamidHaasyimah Ab RahimKhairul Nizam Abdul MauludMohd Talib LatifMohd Shahrul Mohd NadzirMazrura SahaniKai QinPrashant KumarHelena VarkkeyMohammad Rashed Iqbal FaruqueNg Chee GuanSeyedeh Parisa AhmadiSumiani Yusoff2024-05-102024-05-102020Khan, M. F., Hamid, A. H., Ab Rahim, H., Maulud, K. N. A., Latif, M. T., Nadzir, M. S. M., Sahani, M., Kai, Q., Kumar, P., Varkkey, H., Faruque, M.R.I., Ng, C.G., Ahmadi, S.P., & Yusoff, S. (2020). El Niño driven haze over the southern Malaysian peninsula and Borneo. Science of the Total Environment, 730, 139091.https://repoemc.ukm.my/handle/123456789/563The Southeast Asian (SEA) region is no stranger to forest fires - the region has been suffering from severe air pollution (known locally as "haze") as a result of these fires, for decades. The fires in SEA region are caused by a combination of natural (the El Niño weather pattern) and manmade (slash-and-burn and land clearing for plantations) factors. These fires cause the emissions of toxic aerosols and pollutants that can affect millions of people in the region. Thus, this study aims to identify the impact of the SEA haze on the Southern region of the Malaysian Peninsula and Borneo region of East Malaysia using the entire air quality observation data at surface level in 2015.enAerosolTrace gasesHazeWild Forest firesBiomass burningPeatland firesJournal