References

1. P.A. Pillai, K. Mohankumar, Individual and combined influence of El Nino - Southern oscillation and Indian Ocean Dipole on the Tropospheric Biennial Oscillation, Q.J. Royal Meteorol. Soc., 136 (2010) 297–304.
2. A.M. Radzi, D.R. Oros, B.R.T. Simoneit, Biomass burning as the main source of organic aerosol particulate matter in Malaysia during haze episodes, Chemosphere, 55 (2004) 1089–1095.
3. K.M.K. Ku Yusof, A. Azid, M.S. Samsudin, M. Asrul Jamalani, An overview of transboundary haze studies: the underlying causes and regional disputes on Southeast Asia Region, Malaysian J. Fundam. Appl. Sci., 13 (2017) 747–753.
4. M. Radojevic, Chemistry of forest fires and regional haze with emphasis on Southeast Asia, Pure Appl. Geophys., 160 (2003) 157–187.
5. M.D. Keywood, G.P. Ayers, J.L. Gras, R. Boers, C.P. Leong, Haze in the Klang Valley of Malaysia, Atmos. Chem. Phys., 3 (2003) 615–653.
6. N.A. Sulong, M.T. Talib, M.F. Khan, N. Amil, M.J. Ashfold, M.I.A. Wahab, K.M. Chan, M. Sahani, Source apportionment and health risk assessment among specific age groups during haze and non-haze episodes in Kuala Lumpur, Malaysia, Sci. Total Environ., 601–602 (2017) 556–570.
7. D. Dominick, H. Juahir, M.T. Latif, S.M. Zain, A.Z. Aris, Spatial assessment of air quality patterns in Malaysia using multivariate analysis, Atmos. Environ., 60 (2012) 172–181.
8. M.T. Latif, D. Dominick, F. Ahamad, M.F. Khan, L. Juneng, F.M. Hamzah, M.S.M. Nadzir, Long term assessment of air quality from a background station on the Malaysian Peninsula, Sci. Total Environ., 482 (2014) 336–348.
9. L. Petzold, S.T. Li, Y. Cao, R. Serban, Sensitivity analysis of differential-algebraic equations and partial differential equations, Comput. Chem. Eng., 30 (2006) 1553–1559.
10. A. Dunker, G. Yarwood, The decoupled direct method for sensitivity analysis in a three-dimensional air quality model implementation, accuracy, and efficiency, Environ. Sci. Technol., 36 (2002) 2965–2976.
11. A. Azid, H. Juahir, E. Ezani, M.E. Toriman, A. Endut, M.N.A. Rahman, K. Yunus, M.K.A. Kamarudin, C.N.C. Hasnam, A.S.M. Saudi, R. Umar, Identification source of variation on regional impact of air quality pattern using chemometrics, Aerosol Air Qual. Res., 15 (2015) 1545–1558.
12. L. Juneng, M.T. Latif, F. Tangang, Factors influencing the variations of PM10 aerosol dust in Klang Valley, Malaysia during the summer, Atmos. Environ., 45 (2011) 4370–4378.
13. A. Azid, H. Juahir, M.E. Toriman, M.K.A. Kamarudin, A.S.M. Saudi, C.N.C. Hasnam, N.A.A. Aziz, F. Azaman, M.T. Latif, S.F.M. Zainuddin, M.R. Osman, Prediction of the level of air pollution using principal component analysis and artificial neural network techniques: a case study in Malaysia, Water Air Soil Pollut., 225 (2014) 1–14.
14. A. Azid, H. Juahir, M.T. Latif, S.M. Zain, M.R. Osman, Feedforward artificial neural network model for air pollutant index prediction in the Southern Region of Peninsular Malaysia, J. Environ. Prot., 4 (2013) 1–10.
15. Y.J. Yang, J.G. Wilkinson, A.G. Russell, Fast, direct sensitivity analysis of multidimensional photochemical models, Environ. Sci. Technol., 31 (1997) 2859–2868.
16. D.S. Cohan, A. Hakami, Y. Hu, A.G. Russell, Nonlinear response of ozone to emissions: source apportionment and sensitivity analysis, Environ. Sci. Technol., 39 (2005) 6739–6748.
17. D. Hwang, D.W. Byun, M.T. Odman, An automatic differentiation technique for sensitivity analysis of numerical advection schemes in air quality models, Atmos. Environ., 31 (1997) 879–888.
18. A. Azid, H. Juahir, M.E. Toriman, A. Endut, M.N.A. Rahman, M.K.A. Kamarudin, M.T. Latif, A.S.M. Saudi, C.N.C. Hasnam, K. Yunus, Selection of the most significant variables of air pollutants using sensitivity analysis, J. Test. Eval., 44 (2016) 1–10.
19. D. Arslan, M.M. Özcan, H.O. Mengeş, Evaluation of drying methods with respect to drying parameters, some nutritional and colour characteristics of peppermint (Mentha x piperita L.), Energy Convers. Manage., 51 (2010) 2769–2775.
20. W.F. Barnard, V.K. Saxena, B.N. Wenny, J.J. DeLuisi, Daily surface UV exposure and its relationship to surface pollutant measurements, J. Air Waste Manage. Assoc., 53 (2003) 237–245.
21. H.K. Elminir, Sensitivity of ultraviolet solar radiation to anthropogenic air pollutants and weather conditions, Atmos. Res., 84 (2007) 250–264.
22. L.R. Acosta, W.F.J. Evans, Design of the Mexico City UV monitoring network: UV-B measurements at ground level in the urban environment, J. Geophys. Res. Atmos., 105 (2000) 5017–5026.
23. R.M. Harrison, J. Yin, Particulate matter in the atmosphere: which particle propoerties are important for its effects on health?, Sci. Total Environ., 249 (2000) 85–101.
24. X. Liu, K. Sun, Y. Qu, M. Hu, Y. Sun, F. Zhang, Y. Zhang, Secondary formation of sulfate and nitrate during a haze episode in megacity Beijing, China, Aerosol Air Qual. Res., 15 (2015) 2246–2257.
25. S.A. Rahman, M.S. Hamzah, A.K. Wood, M.S. Elias, N.A.A. Salim, E. Sanuri, Sources apportionment of fine and coarse aerosol in Klang Valley, Kuala Lumpur using positive matrix factorization, Atmos. Pollut. Res., 2 (2011) 197–206.
26. R. Shokoohi, A. Nikitas, Urban growth, and transportation in Kuala Lumpur: Can cycling be incorporated into Kuala Lumpur’s transportation system?, case studies on transport policy, 5 (2017) 615–626.
27. L.K. Sahu, V. Sheel, M. Kajino, P. Nedelec, Variability in tropospheric carbon monoxide over an urban site in Southeast Asia, Atmos. Environ., 68 (2013) 243–255.
28. M. Yang, T. Ma, C. Sun, Evaluating the impact of urban traffic investment on SO₂ emissions in China cities, Energy Policy, 113 (2018) 20–27.
29. M.J. Ashfold, M.T. Latif, A.A. Samah, M.I. Mead, N.R.P. Harris, Influence of Northeast Monsoon cold surges on air quality in Southeast Asia, Atmos. Environ., 166 (2017) 498–509.
30. S. Nair, E.A. Resmi, G. Kulkarni, N. Malap, S. Patade, T.V. Prabha, Thermodynamical and cloud microphysical response during the transition from southwest to northeast monsoon, Atmos. Res., 166 (2015) 182–194.