[
Adam, M.G., Tran, P.T.M., Bolan, N., Balasubramanian, R., 2021. Biomass burning-derived airborne particulate matter in Southeast Asia: A critical review. Journal of Hazardous Materials, 407, 124760.10.1016/j.jhazmat.2020.12476033341572
]Search in Google Scholar
[
Che Man, N.B., Salihin, A.F.B., 2018. Analyzing Land Use Pattern Changes in Mukim Pengerang, Johor, Malaysia. Geoplanning: Journal of Geomatics and Planning, 5, 2, 229.10.14710/geoplanning.5.2.229-236
]Search in Google Scholar
[
Chomanee, J., Thongboon, K., Tekasakul, S., Furuuchi, M., Dejchanchaiwong, R., Tekasakul, P., 2020. Physicochemical and toxicological characteristics of nanoparticles in aerosols in southern Thailand during recent haze episodes in lower southeast Asia. Journal of Environmental Sciences (China), 94, 72–80.10.1016/j.jes.2020.03.02132563489
]Search in Google Scholar
[
Davies, J., Mathhew, U., Aikanathan, S., Nyon, Y.C., Chong, G., 2010. A Quick Scan of Peatlands. Wetlands International Malaysia, 80 p.
]Search in Google Scholar
[
Department of Statistic Malaysia, 2021. Environment Statistic Johor 2020. Putrajaya, Malaysia.
]Search in Google Scholar
[
Ghorbanzadeh, O., Blaschke, T., Gholamnia, K., Aryal, J., 2019. Forest fire susceptibility and risk mapping using social/infrastructural vulnerability and environmental variables. Fire, 2, 3, 1–27.10.3390/fire2030050
]Search in Google Scholar
[
Giglio, L., Schroeder, W., Hall, J.V., Justice, C.O., 2020. MODIS Collection 6 Active Fire Product User’s Guide Revision C. Sites The Journal of 20th Century Contemporary French Studies. Version 2 (December), 44. Available on-line https://earthdata.nasa.gov/firms. DOI: 10.5067/FIRMS/MODIS/MCD14ML
]Search in Google Scholar
[
Hashim, Z., Subramaniam, V., Harun, M.H., Kamarudin, N., 2018. Carbon footprint of oil palm planted on peat in Malaysia. International Journal of Life Cycle Assessment, 23, 6, 1201–1217.10.1007/s11367-017-1367-y
]Search in Google Scholar
[
International Steering Committee for Global Mapping and Malaysia. Jabatan Ukur dan Pemetaan, 2013. Inland Waters, Malaysia [Shapefile]. International Steering Committee for Global Mapping. https://maps.princeton.edu/catalog/stanford-hy001hp0426.
]Search in Google Scholar
[
Jaafar, H., Azzeri, A., Isahak, M., Dahlui, M., 2021. The impact of haze on healthcare utilizations for acute respiratory diseases: Evidence from Malaysia. Frontiers in Ecology and Evolution, 9, 764300.10.3389/fevo.2021.764300
]Search in Google Scholar
[
Juárez-Orozco, S.M., Siebe, C., Fernández y Fernández, D., 2017. Causes and Effects of Forest Fires in Tropical Rainforests: A bibliometric approach. Tropical Conservation Science, 10, 1–14.10.1177/1940082917737207
]Search in Google Scholar
[
Koplitz, S.N., Mickley, L.J., Marlier, M.E., Buonocore, J.J., Kim, P.S., Liu, T., Sulprizio, M.P., DeFries, R.S., Jacob, D.J., Schwartz, J., 2016. Public health impacts of the severe haze in Equatorial Asia in September-October 2015: Demonstration of a new framework for informing fire management strategies to reduce downwind smoke exposure. Environmental Research Letters, 11, 9, 94023.10.1088/1748-9326/11/9/094023
]Search in Google Scholar
[
Kumari, B., Pandey, A.C., 2020. MODIS based forest fire hotspot analysis and its relationship with climatic variables. Spatial Information Research, 28, 1, 87–99.10.1007/s41324-019-00275-z
]Search in Google Scholar
[
Levin, N., Heimowitz, A., 2012. Mapping spatial and temporal patterns of Mediterranean wildfires from MODIS. Remote Sensing of Environment, 126, 12–26.10.1016/j.rse.2012.08.003
]Search in Google Scholar
[
MetMalaysia, 2020. MetMalaysia_Pejabat Meteorologi Johor. https://www.met.gov.my/info/pejabatmeteorologi/pmjohor Date of access: 01 Sep. 2021.
]Search in Google Scholar
[
Milanović, S.D.D., Marković, N., Pamučar, D., Gigović, L., Kostić, P., 2021. Forest fire probability mapping in eastern serbia: Logistic regression versus random forest method. Forests, 12, 1, 1–17.10.3390/f12010005
]Search in Google Scholar
[
Ministry of Environment and Water, 2020. Malaysia Third Biennial Update Report to UNFCCC. Putrajaya, Malaysia.
]Search in Google Scholar
[
Mohd-Asharuddin, S., Zayadi, N., Rasit, W., Othman, N., 2016. Water quality characteristics of Sembrong dam reservoir, Johor, Malaysia. IOP Conference Series, Materials Science and Engineering, 136, 1.10.1088/1757-899X/136/1/012058
]Search in Google Scholar
[
Murphy, B., Yocom, L., Belmont, P., 2018. Beyond the 1984 perspective: Narrow focus on modern wildfire trends underestimates future risks to water security. Earth’s Future, 6, 1492–1497.10.1029/2018EF001006
]Search in Google Scholar
[
NASA’s Earth Observing System Data and Information System. s.a., 2021. NASA’s Fire Information for Resource Management System (FIRMS). https://earthdata.nasa.gov/firms Date of access: 09 Mar. 2021.
]Search in Google Scholar
[
Orlova, J., Olefeldt, D., Yasinski, J.H., Anderson, A.E., 2020. Effects of prescribed burn on nutrient and dissolved organic matter characteristics in peatland shallow groundwater. Fire, 3, 3, 1–9.10.3390/fire3030053
]Search in Google Scholar
[
Othman, A.N., Ismail, H.N., Khalid, N., Abdul Halim, M., Mohamad Saraf, N., 2019. Peat fire mapping using GIS based multi-criteria decision making: Study area of Kuala Langat, Selangor. Built Environment Journal, 16, 1, 24.10.24191/bej.v16i1.9672
]Search in Google Scholar
[
Pennino, M.J., Leibowitz, S.G., Compton, J.E., Beyene, M.T., LeDuc, S.D., 2022. Wildfires can increase regulated nitrate, arsenic, and disinfection byproduct violations and concentrations in public drinking water supplies. Science of the Total Environment, 804, 149890.10.1016/j.scitotenv.2021.14989034520927
]Search in Google Scholar
[
Ranhill Holdings Berhad, 2020. Sustainability report 2019-Forging Sustainability. https://www.ranhill.com.my/sustainability/sustainability-report
]Search in Google Scholar
[
Ranhill Utilities Berhad, 2021. Ranhill Annual Report 2020– A Brighter Future Ahead. https://www.ranhill.com.my/ar2020/.
]Search in Google Scholar
[
Rhoades, C., Chow, A., Covino, T., Fegel, T., Pierson, D., Rhea, A.E., 2018. The legacy of a severe wildfire on stream nitrogen and carbon in headwater catchments. Ecosystems, 22, 643–657.10.1007/s10021-018-0293-6
]Search in Google Scholar
[
Robinne, F.-N.N., Miller, C., Parisien, M.-A.A., Emelko, M.B.B., Bladon, K.D.D., Silins, U., Flannigan, M., 2016. A global index for mapping the exposure of water resources to wildfire. Forests, 7, 1, 16.10.3390/f7010022
]Search in Google Scholar
[
Rust, A., Hogue, T., Saxe, S., McCray, J., 2018. Post-fire water-quality response in the western United States. International Journal of Wildland Fire, 27, 203–216.10.1071/WF17115
]Search in Google Scholar
[
United States Environmental Protection Agency, 2019. Wildfires : How Do They Affect Our Water Supplies ? United States Environmental Protection Agency. https://www.epa.gov/sciencematters/wildfires-how-do-theyaffect-our-water-supplies Date of access: 12 Sep. 2021.
]Search in Google Scholar
[
Vadrevu, K.P., Lasko, K., Giglio, L., Schroeder, W., Biswas, S., Justice, C., 2019. Trends in vegetation fires in South and Southeast Asian Countries. Scientific Reports, 9, 1, 7422.
]Search in Google Scholar
[
Writer, J.H., Hohner, A., Oropeza, J., Schmidt, A., Cawley, K., Rosario-Ortiz, F., 2014. Water treatment implications after the High Park Wildfire, Colorado. Journal American Water Works Association, 106, 4, E189–E199.10.5942/jawwa.2014.106.0055
]Search in Google Scholar
[
Yakubu, I., Mireku-Gyimah, D., Duker, A.A., 2015. Review of methods for modelling forest fire risk and hazard. African Journal of Environmental Science and Technology, 9, 3, 155–165.
]Search in Google Scholar