AIR POLLUTION – MONITORING MODELLING AND HEALTH

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152 Air Pollution <strong>–</strong> Monitoring, Modelling and Health [10] Lewis PAW, Stevens JG. Nonlinear modeling of time series using multivariateadaptive regression splines (MARS). J Am Statist Assoc. 1991;86:416. [11] MARS. User guide. Salfords-Systems 2001. Multivariate Adaptive RegressionSplines Vol. 2010; 2001. [12] McCullagh P, Nelder J. Generalized Linear Models. Londin, UK: Chapman Hall, 1989. [13] McKendry IG. Evaluation of artificial neural networks for fine particulate pollution (PM10 and PM2.5) forecasting. J Air Waste Manag Assoc 2002: 52(9): 1096-1101. [14] Meenakshi P, Saseetharan MK. Urban air pollution forecasting with respect to SPM using time series neural networks modelling approach--a case study in Coimbatore City. J Environ Sci Eng 2004: 46(2): 92-101. [15] MM5 Community Model. Vol. 2010. Pennsylvania State University/National Center for Atmospheric Research Numerical Model 2008. [16] Montgomery DC, L. A. Johnson, Gardiner. JS. Forecasting and Time Series Analysis. , 1990. [17] Pascal L. [Short-term health effects of air pollution on mortality]. Rev Mal Respir 2009;26(2):207-19. [18] Perez P, Reyes J. Prediction of maximum of 24-h average of PM10 concentrations 30 h in advance in Santiago, Chile. Atmospheric Environment 36: 2002: 36: 4555-4561. [19] Pérez P, Trier A, Silva C, Montaño RM. Prediction of atmospheric pollution by particulate matter using a neural network. In: Conf on Neural Inf Proc; 1998 Proc. of the 1997; Dunedin, New Zealand: Springer-Verlag, Vol 2; 1998. [20] Sanhueza P, Vargas C, Jimenez J. [Daily mortality in Santiago and its relationship with air pollution]. Rev Med Chil 1999: 127(2): 235-242. [21] Sanchez-Carrillo CI, Ceron-Mireles P, Rojas-Martinez MR, Mendoza-Alvarado L, Olaiz- Fernandez G, Borja-Aburto VH. Surveillance of acute health effects of air pollution in Mexico City. Epidemiology 2003;14(5):536-44. [22] Scott GM, Diab RD. Forecasting air pollution potential: a synoptic climatological approach. J Air Waste Manag Assoc 2000: 50(10): 1831-1842. [23] Silva C, Pérez P, Trier A. Statistical modelling and prediction of atmospheric pollution by particulate material: two nonparametric approaches. Environmetrics, 2001: 12: 147-159. [24] Silva C, Firinguetti L, Trier A. Contaminación ambiental por partículas en suspensión: Modelamiento Estadístico. In; 1994; Actas XXI Jornadas Nacionales de Estadística, Concepción, Noviembre; 1994. [25] Staniswalis JG, Yang H, Li WW, Kelly KE. Using a continuous time lag to determine the associations between ambient PM2.5 hourly levels and daily mortality. J Air Waste Manag Assoc 2009;59(10):1173-85. [26] Stata. Stata: Release 11. Statistical Software. In: College Station TSLTS, ed., 2009. [27] Steinberg D. An Alternative to Neural Nets: Multivariate Adaptive Regression Splines (MARS). PC AI’s 2001: 15(1): 38. [28] Tobias A, Scotto MG. Prediction of extreme ozone levels in Barcelona, Spain. Environ Monit Assess 2005: 100(1-3): 23-32.
Mapping the Spatial Distribution of Criteria Air Pollutants in Peninsular Malaysia Using Geographical Information System (GIS) Mohd Zamri Ibrahim, Marzuki Ismail and Yong Kim Hwang Department of Engineering Science, Faculty of Science and Technology, Universiti Malaysia Terengganu Kuala Terengganu Malaysia 7 1. Introduction Air pollution is defined as the introduction by man, directly or indirectly, of substances into the air which results in harmful effects of such nature as to endanger human health, harm living resources and ecosystems, cause material damage, interfere with amenities and other legitimate uses of the environment (United Nations Environment Programme [UNEP], 1999). The air pollution sources is categorized according to form of emissions whether gaseous or particulates. Air pollution sources also can be distinguished by primary or secondary air pollutants. Primary air pollutants are in the atmosphere that exists in the same form as in source emissions, whereas, secondary air pollutants are pollutants formed in the atmosphere as a result of reactions such as hydrolysis, oxidation, and photochemical oxidation (David Liu & Lipták, 2000). World Health Organization (WHO) had been listed six “classic” air pollutants: carbon monoxide (CO), lead, nitrogen dioxide (NO 2 ), suspended particulate matter (SPM) sulphur dioxide (SO 2 ) and tropospheric ozone (O 3 ) (World Health Organization [WHO], 1999). In Malaysia, the country’s air qualities were monitored by Department of Environment (DOE). The five main air pollutants focus in Malaysia air quality monitoring are CO, O 3 , NO 2 , SO 2 and respirable SPM of less than 10 microns in size (PM 10 ). CO is a colorless, odorless, tasteless gas. It produced by the incomplete combustion of carbon-based fuels and by some industrial and natural processes. NO 2 is colorless, slightly sweet, relatively nontoxic gas. It has a pungent, irritating odor and, because of high oxidation rate, is relatively toxic and corrosive (Godish, 2004). O 3 is formed in the air by the action of sunlight on mixtures of nitrogen oxides and VOCs. O 3 concentrations are higher in the suburbs and in rural areas downwind of large cities than in the city centre, due to ozone removal from the air by reactions with nitric oxide and other components. SO 2 is a colorless gas, which emitted from the combustion of fossil fuels and industrial refining of sulphurcontaining ores (McGranahan & Murray, 2003). Respirable SPM is a suspension of solid and
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AIR POLLUTION - MONITORING, MODELLI
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Contents Preface IX Chapter 1 Urban
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Preface This book provides a compre
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