Abstract
Background, aim, and scope
Ten years of public health interventions on industrial emissions to clean air were monitored for the Mediterranean city of Cartagena. During the 1960s, a number of large chemical and non-ferrous metallurgical factories were established that significantly deteriorated the city’s air quality. By the 1970s, the average annual air concentration of sulfur dioxide (SO2) ranged from 200 to 300 µg/m3 (standard conditions units). In 1979, the Spanish government implemented an industrial intervention plan to improve the performance of factories and industrial air pollution surveillance. Unplanned urban development led to residential housing being located adjacent to three major factories. Factory A produced lead, factory B processed zinc from ore concentrates, and factory C produced sulfuric acid and phosphates. This, in combination with the particular abrupt topography and frequent atmospheric thermal inversions, resulted in the worsening of air quality and heightening concern for public health. In 1990, the City Council authorized the immediate intervention at these factories to reduce or shut down production if ambient levels of SO2 or total suspended particles (TSP) exceeded a time-emission threshold in pre-established meteorological contexts. The aim of this research was to assess the appropriateness and effectiveness of the intervention plan implemented from 1992 to 2001 to abate industrial air pollution.
Materials and methods
The maximum daily 1-h ambient air level of SO2, NO2, and TSP pollutants was selected from one of the three urban automatic stations, designed to monitor ambient air quality around industrial emissions sources. The day on which an intervention took place to reduce and/or interrupt industrial production by factory and pollutant was defined as a control day, and the day after an intervention as a post-control day. To assess the short-term intervention effect on air quality, an ecological time series design was applied, using regression analysis in generalized additive models, focusing on day-to-day variations of ambient air pollutants levels. Two indicators were estimated: (a) appropriateness, the ratio between mean levels of the pollutant for control days versus the other days, and (b) effectiveness, the ratio between mean levels of the pollutant for post-control days versus the other days. Ratios in regression analyses were adjusted for trend, seasonality, temperature, humidity and atmospheric pressure, calendar day, and special events as well as the other pollutants.
Results
A total of 702 control days were made on the factories’ industrial production during the 10-year period. Fifteen reductions and five shutdown control days took place at factory A for ambient air SO2. At factory B, more controls were carried out for the SO2 pollutant in the years 1992–1993 and 1997. At factory C, the control days for SO2 decreased from 59 reductions and 14 shutdowns to a minimum from 1995 onwards, whereas the controls on TSP were more frequent, reaching a maximum of 99 reductions and 47 shutdowns in the last year. SO2 ambient air mean levels ranged from 456 to 699 µg/m3 among factories on reduction control days and between 624 and 1,010 µg/m3 on shutdown days. The TSP ambient air mean levels were 428 and 506 µg/m3 on reduction and shutdown days, respectively. For all types of control days and factories, a mean ratio of 104% (95% confidence interval [CI] 88 to 121) in SO2 levels was obtained and a mean ratio of 67% (95% CI 59 to 75) in TSP levels. Post-control days at all factories showed a mean ratio of −16% (95% CI −7 to −24) in SO2 levels and a mean ratio of −13% (95% CI −7 to −19) in TSP levels.
Discussion
Interventions on industrial production based on the urban SO2 and TSP ambient air levels were justified by the high concentrations detected. The best assessment of the interventions’ effectiveness would have been to utilize the ambient air pollutant concentration readings from the entire time of the production shutdowns or reductions; however, the daily hourly maximum turned out to be a useful indicator because of meteorological factors influencing the diurnal concentration profile. A substantial number of interventions were carried out from 1 to 3 am, when vehicular traffic was minimum. On the other hand, atmospheric stability undergoes diurnal cycling in the autumn–winter period due to thermal inversion, which reaches maximum levels around daybreak. Therefore, this increases the ambient air levels and justified the interventions carried out at daybreak in spite of the traffic influence.
Conclusions
All the interventions for SO2 and TSP were carried out when the measured ambient air levels of pollutants were exceeded, which shows the appropriateness of the intervention program. This excess was greater when intervening on SO2 than on the TSP levels. For both ambient air levels of SO2 and TSP, significant drops in air pollution were achieved from all three factories following activity reductions. The production shutdown controls were very effective, because they returned excess levels, higher than in the reduction controls, to everyday mean values.
Recommendations and perspectives
The Cartagena City observational system of intermittent control has proven to effectively reduce industrial emissions’ impact on ambient air quality. This experienced model approach could serve well in highly polluted industrial settings. From a public health perspective, studies are needed to assess that the industrial interventions to control air pollution were related to healthier human populations. Legislation was needed to allow the public administration to take direct actions upon the polluting industries.
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References
Ahrens CD (2000) Meteorology Today: An Introduction to Weather, Climate, and the Environment, 6th edn. Brooks/Cole, Pacific Grove, pp 441–466
Air Quality. Regional Ministry of Sustainable Development and Territorial Organization. Daily pollutants data of Bastarreche station (Historical) Cartagena (Medias horarias). (In Spanish), http://www.carm.es/cmaot/calidadaire/portal/formConsultaDatos.do;jsessionid=A749DD9AD670C672C7151ABA34CA0303
Alonso P, Cámara A, Martínez JJ, Jover J (1979) Study on the abiotic contamination in the city of Cartagena. Years 1977 and 1978. Rev San Hig Púb 53:331–384
Avilés City Council (1983) III Symposium on Contamination 1983. 20–21 October. Avilés: G. RIGEL, pp 93–106 (in Spanish)
Ballester F, Sáez M, Pérez-Hoyos S, Iníguez C, Gandarillas A, Tobías A, Bellido J, Taracido M, Arribas F, Daponte A, Alonso E, Cañada A, Guillén-Grima F, Cirera L, Pérez-Boillos MJ, Saurina C, Gómez F, Tenías JM (2002) The EMECAM project: a multicenter study on air pollution and mortality in Spain: combined results for particulates and for sulfur dioxide. Occup Environ Med 59:300–308
Commission Decision 2001/839/EC of 8 November 2001 laying down a questionnaire to be used for annual reporting on ambient air quality assessment under Council Directives 96/62/EC and 1999/30/EC. OJ L313, 04.12.2001, pp 45–64
Cortina J (1998) The evolution of the economy of Cartagena (1940–1996). Caja de Ahorros del Mediterráneo, Murcia (in Spanish)
Council Directive 1999/30/EC of 22 April 1999 relating to limit values for sulphur dioxide, nitrogen dioxide and oxides of nitrogen, particulate matter and lead in ambient air. OJ L 163, 29.6.1999, pp 41–60
Figueiras A, Roca J, Cadarso C (2005) A bootstrap method to avoid the effect of concurvity in generalised additive models in time series studies of air pollution. J Epidemiol Comm Health 59:881–884
Gómez-Linares JL (1989) Air Pollution in Cartagena. Suggestions for its study. Cartagena: Gráficas F Gómez. Cartagena City Council. Environmental education in the school. No 1, p 36 (in Spanish)
Harrison RM, Deacon AR, Jones MR (1997) Sources and processes affecting concentrations of PM10 and PM2.5 particulate matter in Birmingham (UK). Atmos Environ 31(24):4103–4117
Health Effects Institute (2003) Statement. In: Revised Analyses of Time-Series Studies of Air Pollution and Health; May; p iiii
Heinrich J, Hoelscher B, Wichmann HE (2000) Decline of ambient air pollution and respiratory symptoms. Children Am J Respir Crit Care Med 161:1930–1936
Katsouyanni K, Touloumi G, Samoli E, Gryparis A, Monopolis Y, LeTertre A, Boumghar A, Rossi G, Zmirou D, Ballester F, Anderson HR, Wojtyniak B, Paldy A, Braunstein R, Pekkanen J, Schindler C, Schwartz J (2002) Different convergence parameters applied to the S-PLUS GAM function. Epidemiology 13:742–743
Millán M, Salvador E, Mantilla R (1996) Meteorology and photochemical air pollution in Southern Europe: experimental results from EC research projects. Atmos Environ 30(12):1909–1924
Moreno-Clavel J (1991) General Aspects on Pollution in Cartagena. In: Air Pollution and Health in Cartagena. Regional Ministry of Health, Cartagena, pp 53–54. Health monographs 10 (in Spanish)
Mott JA, Wolfe MI, Alverson CJ, Macdonald SC, Bailey CR, Ball LB, Moorman JE, Somers JH, Mannino DM, Redd SC (2002) National vehicle emissions policies and practices and declining US carbon monoxide-related mortality. JAMA 288:988–995
Official Gazette of the Region of Murcia (1989) Resolution of 7 September 1989, ordering actions to be taken by firms in the area of air pollution in Cartagena. OGRM 20 September 1989, No 216 (in Spanish)
Official Gazette of the Region of Murcia (1990) Resolution of 24 September 1989, complementing the Resolution of 7 September 1989 (LRM 1989\125), ordering actions to be taken by firms in the area of air pollution in Cartagena. OGRM 15 October 1990 No 237 (in Spanish)
Official Spanish Gazette (1972) Law 38/1972 of 22 December, on Environmental Protection of the Atmosphere. OPG 26 December 1972 No 309 (in Spanish)
Official Spanish Gazette (1975) Decree 833/1975 of 6 February, developing Law 22-12-1972, concerning protection of the atmospheric environment. OPG 22 April 1975 No 96 (in Spanish)
Official Spanish Gazette (1978a) Order of 20th October 1978. Types of fuels to be used in the area of Greater Bilbao. OSG 24 October 1978, No 254 (in Spanish)
Official Spanish Gazette (1978b) Royal Decree 3037/1978 of 4th December. Air Pollution Control Plan for Greater Bilbao. OSG 26 December 1978, No 308 (in Spanish)
Official Spanish Gazette (1979a) Royal Decree 1197/1979 of 20 February. Air Pollution. Regime applicable to part of the municipal area of Cartagena. OPG 23 May 1979 No 123 (in Spanish)
Official Spanish Gazette (1979b) Royal Decree 1281/1979 of 10th May. Urgent action plan at La Punta del Sebo (Huelva) OSG 2 June 1979 No 132 (in Spanish)
Official Spanish Gazette (1980) Royal Decree 288/1980 of 8th February. Avilés Air Pollution Control Plan. OSG 21 February 1980 No 45 (in Spanish)
Official Spanish Gazette (1981) Royal Decree 211/1981 of 23rd January, according to which the municipal area of Avilés is declared a polluted air zone. OSG 17 February 1981, No 41 (in Spanish)
Official Spanish Gazette (1982) Royal Decree 2669/1982 of 12 August. Second Phase of the Cartagena Pollution Control Plan. OPG 26 October 1982 No 257 (in Spanish)
Ostro BD, Chestnut LG, Mills DM, Watkins AM (1999) Estimating the effects of air pollutants on the population: human health benefits of sulfate aerosol reductions under Title IV of the 1990 Clean Air Act Amendment in air pollution and health. In: Holgate ST, Samet JM, Koren H, Maynard RL (eds) Air pollution and health. Academic, London, pp 899–916
Pope CA III (1996) Particulate pollution and health: a review of the Utah valley experience. J Expo Anal Environ Epidemiol 6:23–34
Querol X, Ballester F (2004) Report on the WHO workshop. Review of methods for monitoring of PM10 and PM2.5. Berlin, 11–12 October, www.euro.who.int/eprise/main/WHO/Progs/AIQ/Activities/20040513_1
Querol X, Alastuey A, Ruiz CR, Artiñano B, Hansson HC, Harrisond RM, Buringh E, ten Brink HM, Lutz M, Bruckmann P, Straehl P, Schneider J (2004) Speciation and origin of PM10 and PM2.5 in selected European cities. Atmos Environ 38:6547–6555
Regional Ministry for Agriculture, Water and Environment (1994–1998) Annual Report of Air Quality. Period 1993–2000. Región de Murcia http://www.carm.es/cma/dgmn/caliamb/atmosfe/calidad.htm (in Spanish)
Regional Ministry of Environment (1988) Corrective plan regarding atmospheric emissions. Mimeograph, Department of Environmental Quality. Mimeographed, Department of Environmental Quality. Junta de Andalucía. (in Spanish)
Regional Ministry of Industry and Environment (2007) Functions of the Industrial Intervention Operative Plan in the city of Cartagena. Department for Environmental Quality and Surveillance. Region of Murcia (in Spanish) http://www.carm.es/cmaot/calidadaire/portal/redvigilancia.jsp;jsessionid=135000BB2929BA352A4B004CA5D102F4
Rieg E (1993) The economic surroundings of the Spanish political transition. Agricultura y Sociedad, pp 68–69 (in Spanish)
Saez M, Ballester F, Barceló MA, Pérez-Hoyos S, Bellido J, Tenías JM, Ocaña R, Figueiras A, Arribas F, Aragonés N, Tobías A, Cirera L, Cañada A, EMECAM (2002) A combined analysis of the short-term effects on photochemical air pollutants on mortality within the EMECAM project. Environ Health Persp 110:211–228
S-Plus© (2001) Insightful Corp. S: Copyright Lucent Technologies, Inc. Professional Edition Version 6.0.3 Release 2 for Microsoft Windows
Victoria-Jumilla F (1984) White Report. Air pollution in the Region of Murcia. Murcia: Regional Ministry of Policy and Territorial Infrastructure (in Spanish)
Acknowledgements
The authors would like to thank Juan-Carlos Casado at the Regional Environment Authority of Murcia, Antonio Vidal on behalf of the Air Pollution Center Control of Cartagena, both for technical support and data transfer, to Lola Acosta and the Centro Tecnológico de Información y Documentación Sanitaria of Murcia Health Council for documental assistance in the Health Area, and Paul Nordstrom for English translation at Miguel Hernández University. Also, the research group wanted to mention partial funding from the CIBER (acronym in Spanish, for an official Biomedical Research Center in Network) Epidemiología y Salud Pública (CIBERESP), Spain. Thanks go to the anonymous referees for their suggestions and critical comments to improve the quality of the manuscript.
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Cirera, L., Rodríguez, M., Giménez, J. et al. Effects of public health interventions on industrial emissions and ambient air in Cartagena, Spain. Environ Sci Pollut Res 16, 152–161 (2009). https://doi.org/10.1007/s11356-008-0091-3
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DOI: https://doi.org/10.1007/s11356-008-0091-3