Abstract
The study of PM10 temporal variation for two successive years (2009 and 2010), carried out at the proximity of a crossroad (≈ 41,390 vehicles per day) located in an urban centre in Sfax, Tunisia, showed comparable annual average concentrations (≈ 80 μg/m3). However, monthly and daily average concentration levels have been significantly variable. Moreover, the monthly average concentration levels have revealed almost similar tendencies to those observed in other Mediterranean regions, signalling the highest ones between winter and spring periods. High PM10 concentration levels, including the winter-spring peak, have been more significant due to the Saharan wind circulation. Complementary statistical approaches, concerning the simple linear regression, the factorial analysis of correspondences, the quality of representation, and the hierarchical cluster analysis, have revealed the simultaneous impact of local sources and extreme meteorological conditions on highly registered PM10 concentrations, particularly in the presence of an obstacle such as buildings. The investigation of Air Quality Health Index (AQHI) has exhibited that more than 60% of the period in focus has been characterized by good-to-fair air quality for the ordinary people. The remainder has been characterized by poor to very poor air quality for the same kind of people. Furthermore, more than 70% of the whole period has been found unhealthy for sensitive groups, hindering them from any outdoor activities.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alastuey A, Querol X, Castillo S, Escudero M, Avila A, Cuevas E, Torres C, Romero P, Exposito F, Garcia O (2005) Characterisation of TSP and PM2.5 at Izaña and Sta. Cruz de Tenerife (Canary Islands, Spain) during a Saharan dust episode (July 2002). Atmos Environ 39(26):4715.4728. https://doi.org/10.1016/j.atmosenv.2005.04.018
Alberta government (2012). What is the Air Quality Health Index? http://environment.alberta.ca/03603.html. Accessed December 2019
Anderson JO, Thundiyil JG, Stolbach A (2012) Clearing the air: a review of the effects of particulate matter air pollution on human health. J Med Toxicol 8:166–175
Andreev G, Simeonov V (1986) Application of cluster analysis to the study of connection between sampling location and composition of seawater samples. J Anal Chem 325:146–149
Azri C (2000) Contribution des sources mobiles et fixes à la pollution atmosphérique dans la région de Sfax (Tunisie). Thèse de Doctorat, Université de Tunis II (Tunisie)
Azri C, Maalej A, Tlili A, Medhioub K (2002) Caractérisation du niveau de pollution atmosphérique dans la ville de Sfax (Tunisie): influence des sources et des facteurs météorologiques. Techniq Sci Method (TSM) 1(97):78–92
Azri C, Maalej A, Medhioub K, Rosset R (2007) Evolution of atmospheric pollutants in the city of Sfax (Tunisia) (October 1996-June 1997). Atmosfera 20(3):223–246
Azri C, Abida H, Medhioub K (2009) Geochemical behavior of the Tunisian background aerosols in sirocco wind circulations. Adv Atmos Sci 26(3):390–402
Baati H, Gargouri D, Jarboui R, Azri C, Ammar E, Medhioub K (2011) Impact of a mixed “industrial and domestic” wastewater effluent on the southern coastal sediments of Sfax (Tunisia) in the Mediterranean Sea. Int J Environ Res 5:691–704
Bahloul M, Chabbi I, Dammak R, Amdouni R, Medhioub K, Azri C (2015a) Geochemical behaviour of PM10 aerosol constituents under the influence of succeeding anticyclonic/cyclonic situations: case of Sfax City, southern Tunisia. Environ Monit Assess 187:757
Bahloul M, Chabbi I, Sdiri A, Amdouni R, Medhioub K, Azri C (2015b) Spatiotemporal variation of particulate fallout instances in Sfax City, southern Tunisia: influence of sources and meteorology. Adv Meteorol 471396:11
Bahloul M. (2016) Comportement géochimique des métaux dans les marais salants de Sfax et impact des sources d’apports. Thèse de doctorat, Université de Sfax (Tunisie)
Bhugwant C, Bessafi M, Favez O, Chiappini L, Sieja B, Leoz-Garziandia E (2013) High contribution of sea salt aerosols on atmospheric particles measured at an urban tropical location in Reunion Island. J Environ Prot Sci 4:828–842
Bouchlaghem K, Nsom B (2012, 2012) Effect of atmospheric pollutants on the air quality in Tunisia. Sci World J:863528, 8 pages. https://doi.org/10.1100/2012/863528
Chaabane M, Azri C, Medhioub K (2012) Climatological aspects of aerosol physical characteristics in Tunisia deduced from sun photometric measurements. Sci World J 2012:585084, 11 pages. https://doi.org/10.1100/2012/585084
Chabbi I, Bahloul M, Dammak R, Baati H, Azri C (2020) Wet deposition of major ions and trace elements in rural and coastal-urban sites in Monastir region, eastern Tunisia. Arab J Geosci 13:51–16. https://doi.org/10.1007/s12517-019-5014-8
Central Pollution Control Board (CPCB) (2009) Guidelines for national ambient air quality monitoring, Series: NAAQM/25/2003-04. Parivesh Bhavan, Delhi
Chen H, Copes R (2013) Review of air quality index and air quality health index. Queen’s Printer for Ontario, Toronto
Dammak R, Bahloul M, Chabbi I, Azri C (2016) Spatial and temporal variations of dust particle deposition at three “urban/suburban” areas in Sfaxcity (Tunisia). Environ Monit Assess 188:1–14. https://doi.org/10.1007/s10661-016-5341-0
Development Status Report of the Commissioner of the Environment (2009). Air Quality Health Index-Health Canada and Environment Canada. [Online]. http://www.oag-bvg.gc.ca/internet/english/parl_cesd_200903_02_e. Accessed 10 Dec 2019
Gama C, Monteiro A, Pio C, Miranda AI, Baldasano JM, Tchepel O (2018) Temporal patterns and trends of particulate matter over Portugal: a long-term analysis of background concentrations. Air Qual Atmos Health 11:397–407
Gargouri D, Azri C, Serbaji MM, Jedoui Y, Montacer M (2011) Heavy metal concentrations in the surface marine sediments of Sfax coast, Tunisia. Environ Monit Assess 175:519–530
Gargouri D, Bahloul M, Azri C (2015) Sediment quality and potential toxicity assessment in two open/semiclosed mediterranean sea areas: a case study of Sfax coast (Tunisia). Water Environ Res 87(5):470–479
Ghannem N, Gargouri D, Sarbeji MM, Yaich C, Azri C (2014) Metal contamination of surface sediments of the Sfax-Chebba coastal line, Tunisia. Environ Earth Sci 72:3419–3427
Guieu C (2002) Chemical characterization of the Saharan dust end-member: some biogeochemical 1192 implications for the western Mediterranean Sea. J Geophys Res 107(D15):4258. https://doi.org/10.1029/2001JD000582
Health Canada and Environment (2009) Status report of the commissioner of the environment and sustainable development. Air Quality Health Index, Canada
Hidy GM (2019) Atmospheric aerosols: some highlights and highlighters, 1950 to 2018. J Aerosol Sci Eng 3:1–20. https://doi.org/10.1007/s41810-019-00039-0
Holmes NS (2007) A review of particle formation events and growth in the atmosphere in the various environments and discussion of mechanistic implications. Atmos Environ 41(10):21–83
Kumar SD, Dash A (2018) Seasonal variation of air quality index and assessment. Global J Environ Sci Manage 4(4):483–492
Langner M, Draheim T, Endlicher W (2011) Particulate matter in the urban atmosphere: concentration, distribution, reduction-results of studies in the Berlin metropolitan area in perspectives in urban ecology. Springer, Berlin
Lewandowska A, Falkowska L (2013) High concentration episodes of PM10 in the air over the urbanized coastal zone of the Baltic Sea (Gdynia-Poland). Atmos Res 120-121:55–67
Maalej A, Azri C, Medhioub K, Rosset R (2003) Numerical modelling for the study of ozone transport in sea-breeze circulations at Sfax (Tunisia). Indian J Phys 77B:503–512
Mahesh KS, Bishu K, Rajib P (2019) Assessment of ambient air quality and air quality index of selected Industrial Estates of West Tripura District, Tripura State, India. Environ We Int J Sci Tech 14:111–122
Malandrino M, Di Martino M, Ghiotti G, Geobaldo F, Mauro M, Grosa MM, Giacomino A, Abollino O (2013) Inter-annual and seasonal variability in PM10 samples monitored in the city of Turin (Italy) from 2002 to 2005. Microchem J 107:76–85
Masiol M, Rampazzo G, Ceccato D, Squizzato S, Pavoni B (2012) Characterization of PM10 sources in a coastal area near Venice (Italy): an application of factor-cluster analysis. Chemosphere 80(7):771–778
Masmoudi M, Chaabane M, Tanre D, Gouloup P, Blarel L, Elleuch F (2003) Spatial and temporal variability of aerosol: size distribution and optical properties. Atmos Res 66:1–19
Mercado LM, Bellouin N, Sitch S, Boucher O, Huntingford C, Wild M (2009) Impact of changes in diffuse radiation on the global land carbon sink. Assessment of trace element concentrations and their estimated dry deposition fluxes in an urban atmosphere. Nature 458(7241):1014–1017
Moreno T, Kojima T, Amato F, Lucarelli F, de la Rosa J, Calzolai G, Nava S, Chiari M, Alastuey A, Querol X, Gibbons W (2013) Daily and hourly chemical impact of springtime transboundary aerosols on Japanese air quality. Atmos Chem Phys 13:1411–1424 http://www.atmos-chem-phys.net/13/1411/2013/
Pipal AS, Singh S, Satsangi GP (2019) Study on bulk to single particle analysis of atmospheric aerosols at urban region. Urban Clim 27:243–258. https://doi.org/10.1016/j.uclim.2018.12.008
Querol X, Alastuey A, Rodriguez S, Viana MM, Artíñano B, Salvador P et al (2004) Levels of particulate matter in rural, urban and industrial sites in Spain. Sci Total Environ 334-335:359–376
Robins TG, Batterman S, Mentz GB, Kistnasamy B, Jack C, Irusen E (2005) Respiratory health and air pollution in South Durban: the settlers school study. Epidemiology 16(5):PS79
STATIT-CF (1986). Services des études statistiques de l’Institut Technique des Céréales et Fourrages (I.T.C.F.), Boigneville
US EPA (United States Environmental Protection Agency) (2000). Air quality: index a guide to air quality and your health. EPA-454/R-00-005. Air and Radiation Washington, DC 20460
Wiśniewska K, Lewandowska AU, Staniszewska M (2019) Air quality at two stations (Gdynia and Rumia) located in the region of Gulf of Gdansk during periods of intensive smog in Poland. Air Qual Atmos hlth 12:879–890
Acknowledgements
The authors would like to thank Mr. Fathi Bourmech, Professor at the Faculty of Arts at Sfax, for his careful editing and proofreading of this paper.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
The authors declare that they have no conflict of interest.
Additional information
Publisher’s note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Electronic supplementary material
ESM 1
(DOCX 1.06 MB)
Rights and permissions
About this article
Cite this article
Dammak, R., Chabbi, I., Bahloul, M. et al. PM10 temporal variation and multi-scale contributions of sources and meteorology in Sfax, Tunisia. Air Qual Atmos Health 13, 617–628 (2020). https://doi.org/10.1007/s11869-020-00824-8
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11869-020-00824-8