Abstract
Chlorine gas is widely known as obnoxious gas in the environment. It is well documented that little amount of chlorine gas in the atmosphere can cause pulmonary edema, pneumonitis, emphysema, bronchitis, and irritation of eyes, throat, and nose, just to mention a few. The thrust of this work is to investigate the breathing disease and health hazard emanating from the inhalation of chlorine concentration in particulate matter during job activities. This work was conducted among 120 employers from nine (9) industries. Information of the various ailments were gathered by using questionnaires and spirometry. The spirometry has an opening in which one blows in air to determine the lung volume. The commonest symptoms in the work were cough 47.5%, phlegm expectoration 50.0%, wheeze 5.8%, chest tightness 10.0%, chest pain 5.7%, breathlessness 8.3%, and cough with phlegm 8.3%. The concentration of chlorine in the total suspended particle ranged from 0.005 to 0.189 ppm, while the mean concentration of chlorine in the inhalable particle ranged from 0.112 to 0.270 ppm, and the concentration of chlorine gas in respirable particle ranged from 0.070 to 0.266 ppm. Further study should be conducted to enable establishment of reference level for the state.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alexandre C, Paulo C, Maenhaut IW (1998) Monitoring of atmospheric aerosol particles on the Antarctic Peninsula. Ann Glaciol 27:360–364
American Thoracic Society (1991) Lung functions testing: selection of reference values and interpretation strategies. Ame Thorac Soc Am Rev Respir 144:1202–1218
Bernard A, Nickmilder M, Voisin C, Sardella A (2009) Impact of chlorinated swimming pool attendance on the respiratory health of adolescents. Pediatrics 124:1110–1118
Charan NB, Lakshminarayan S, Myers GC, Smith DD (1995) Effects of accidental chlorine inhalation on pulmonary function. West J Med 143(3):333–336
D’Alessandro A, Kuschner W, Wong H, Boushey HA, Blanc PD (1996) Exaggerated responses to chlorine inhalation among persons with nonspecific airway hyperreactivity. Chest 109(2):331–337
Das R, Blanc PD (1993) Chlorine gas exposure and the lung: a review. Toxicol Ind Health 9:439–455
Ediagbonya TF (2016) Enrichment factor of atmospheric trace metal using zirconium titanium iron and copper as reference element. Nigerian J Technol 35(4):785–795
Ediagbonya TF, Ukpebor EE, Okieimen FE (2013) Correlation of meteorological parameters and dust particles using scatter plot in a rural community. IFE J Sci 15(3):445–453
Ezeh GC, Obioh IB, Asubiojo OI, Abiye OE (2012) PIXE characterization of PM10 and PM2.5 particulates sizes collected in Ikoyi Lagos, Nigeria. Toxicol Environ Chem 94:884–894
Ezeh GC, Obioh IB, Asubiojo OI (2015) Multi-elemental analysis and source apportionment of urban aerosols in a low density residential area: a case study of Ikoyi Lagos Nigeria. IFE J Sci 17(2):415–427
Gautrin D, Boulet LP, Boutet M, Dugas M, Bherer L, Archeveque J, Laviolette M, Cote J, Malo JL (1994) Is reactive airways dysfunctionsyndrome a variant of occupational asthma? J Allergy Clin Immunol 93:12–22
Gorguner M, Aslan S, Inandi T, Cakir Z (2004) Reactive airways dysfunction syndrome in housewives due to a bleach-hydrochloric acid mixture. Inhal Toxicol 16:87–91
Grimes DA, Schulz KF (2005) Compared to what? Finding controls for case-control studies. Lancet 365:1429–1433
Gunnarson M, Walther SM, Seidal T, Bloom GD (1998) Exposure to chlorine gas: effects on pulmonary function and morphology in anesthetized and mechanically ventilated pigs. J Appl Toxicol 18:249–255
Han YM, Cao J, Jin ZD, An ZS (2009) Elemental composition of aerosols in Daihai, a rural area in the front boundary of the summer Asian monsoon. Atmos Res 92:229–235
Hasan FM, Gehshan A, Fuleiha FJ (1983) Resolution of pulmonary dysfunction following acute chlorine exposure. Arch Environ Health 38:76–80
He K, Yang F, Ma Y, Zhang Q, Yao X, Chan CK, Cadle S, Chan T, Mulawa P (2001) The characteristics of PM2.5 in Beijing, China. Atmos Environ 35:4959–4970
Health and Safety Executive EH40/2005 Workplace exposure limits 2005. The Stationery Office, London, p 2005
Jones RN, Hughes JM, Glindmeyer H, Weill H (1986) Lung function after acute chlorine exposure. Am Rev Respir Dis 134:1190–1195
Lemiere C, Malo JL, Boutet M (1997) Reactive airways dysfunction syndrome due to chlorine: sequential bronchial biopsies and functional assessment. Eur Respir J 10:241–244
Medical Research Council. Committee on the aetiology of Chronic Bronchitis (1960) Standard questionnaire on respiratory symptoms. Br Med J 2:1665–1668
Miller MR, Crapo R, Hankinson J (2005) General considerations for lung function. Eur Respir J 26:153–161
Mkomas L, Tungaraza C, Maenhaut W, Raes N (2010) Elemental composition and sources of atmospheric particulate matter in Dar es Salaam, Tanzania. Ethiop J Environ Stud Manag 3:20–29
Morata D, Polvé M, Valdés A, Belmar M, Dinator MI, Silva M, Leiva MA, Aigouy T, Morales JR (2008) Characterisation of aerosol from Santiago, Chile: an integrated PIXE-SEM-EDX study. Environ Geol 56(1):81–95
National health and nutrition examination survey (NHANES) III (1998) Body measurements (anthropometry) manual
O’Conner T, Manning P (2005) Spirometry: performance and interpretation. A guide for general practitioners. Irish Thoracic Society
Oluyemi EA, Asubiojo OI (2001) Ambient air particulate matter in Lagos, Nigeria: a study using receptor modeling with X-ray fluorescence analysis. Bull Chem Soc Ethiop 15(2):97–108
Owoade OK, Olise FS, Obioh IB, Olaniyi HB, Ferrero L, Bolzacchini E (2010) EDXRF elemental assay of airborne particulates: a case study of an iron and steel smelting industry, Lagos, Nigeria. Sci Res Essay 4(11):1342–1347
Park S, Allen RJ, Lim CH (2020) A likely increase in fine particulate matter and premature mortality under future climate change. Air Qual Atmos Health 13:143–151
Rajesh V, Babu MD, Cardenas Jr V, Gulshan MD Sharma, MPH(2008) Acute respiratory distress syndrome from chlorine inhalation during a swimming pool accident: a case report and review of the literature. J Intensive Care Med.23: (4) 275–280
Schwartz DA, Smith DD, Lakshminarayan S (1990) The pulmonary sequelae associated with accidental inhalation of chlorine gas. Chest 97:820–825
Skalska K, Lewandowska AU, Staniszewska M, Reindl A, Witkowska A, Falkowska L (2019) Sources, deposition flux and carcinogenic potential of PM2.5-bound polycyclic aromatic hydrocarbons in the coastal zone of the Baltic Sea (Gdynia, Poland). Air Qual Atmos Health 12:1291–1301
Tobin EA, Ediagbonya TF, Okojie OH, Asogun DA (2016) Occupational exposure to wood dust and respiratory health status of sawmill workers in South-South Nigeria. J Pollut Effect Control 4(1):1–6
Ugheoke J, Wahab ZK, Erhabor GE (2009) Prevalence of respiratory symptoms among sawmills workers in Benin-city. Int J Trop Med 4:1–3
Van Sickle D, Wenck MA, Belflower A, Drociuk D, Ferdinands J, Holguin F, Svendsen E, Bretous L, Jankelevich S, Gibson JJ (2009) Acute health effects after exposure to chlorine gas released after a train derailment. Am J Emerg Med 27:1–7
Vu VV, Zauli-Sajani S, Poluzzi V, Harrison RM (2018) Factors controlling the lung dose of road traffic-generated sub-micrometre aerosols from outdoor to indoor environments. Air Qual Atmos Health 11:615–625
World Health Organization. WHO (1982) Task Group on Environmental Health Criteria for Chlorine and Hydrogen Chloride. [Accessed December 3,2009.] Mercier M, convenor. Geneva:WHO;1982.Availablefrom:http://www.inchem.org/documents/ehc/ehc/ehc21.htm#SubSection-Number:1.2.4
Ye B, Ji X, Yang H, Yao X, Chan CK, Cadle SH, Chan T, Mulawa PA (2003) Concentration and chemical composition of PM2.5 in Shanghai for a1-year period. Atmos Environ 37:499–510
Acknowledgments
The authors wish to thank Dr. Nosa Okungbowa School of Medical Science, University of Benin, for his immeasurable ideas and logistic support.
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher’s note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Ediagbonya, T.F., Tobin, A.E. Toxicological assessment of chlorine concentration in atmospheric particulate matter in Benin City, Nigeria. Air Qual Atmos Health 13, 885–891 (2020). https://doi.org/10.1007/s11869-020-00848-0
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11869-020-00848-0