Dust Particles and Aerosols: Impact on Biota “A Review” (Part III)
محورهای موضوعی : Climate ChangeVictor R Squires 1 , Elahe Karami 2
1 - Ecology and Resources Group, Gansu Agricultural University, Lanzhou
2 - Student, Department of Rangeland Management, Young Researchers Club, Boroujerd Branch, Islamic Azad University, Boroujerd
کلید واژه: pollution, Health, Rangeland, Forest, Particles and aerosols,
چکیده مقاله :
Natural resources play a fundamental role in the economy of country and create the situation to achieve the goals of sustainable society, these valuable resources have to be conserved and used with care. Destroying the forests and rangelands will lead to a dark future full of poverty, starvation and environmental pollution. Forests and rangelands play a considerable role in reducing air pollution, minimizing soil erosion, protect against destructive floods, creating a pleasant place of recreation and relaxation while also allowing recharge of underground water resources. In short, ensure the preservation of resources essential for life on the earth. This is Part 3 of a comprehensive review of the impact of dust particles and aerosols. Part 1 (Squires, 2016a) examined the mechanisms by which dust particles and aerosols become airborne and the effect of particle size on deposition patterns. Part 2 (Squires, 2016b) focussed on the impact of particulates on the physiology, and productivity of plants. In this paper, attention is directed to the impact on human health of dust and aerosols generated from dust storms and from industrial sites (mines, factories and from roadside dust generated by passing vehicles). Effects of such dust range from nuisance (that arises from loss of visibility) to increased costs of clean-up of premises, through to serious health problems generated by inhalation of dust particles and aerosols.
Amponsah-Dacosta, F. and Annegam., H.J. 1998. Assessment of fugitive dust emissions from an opencast coal mine, Journal of the Mine Ventilation Society of South Africa, 51: 5-11.
Buba,W.M., Ibrahim, A.Q., Humphrey, M. M., Gungsat, N.J., Nvau, J.B., 2013. Speciation of Some Heavy Metals in Soils around a Cement Factory in Gombe State, Nigeria. International J of Engineering and Science 2(9):110-115.
Chaston, K. and Doley, D., 2006. Mineral particulates and vegetation: Effects of coal dust, overburden and fly ash on light interception and leaf temperature Clean Air and Environmental Quality 40 (1): 40-44.
Davies, CN. 1974. Particles in the atmosphere–natural and man-made. Atmos. Environ. 8(11):1069-1079.
Doley, D., and Rossato, L., 2010. Mineral particulates and vegetation: Modelled effects of dust on photosynthesis in plant canopies. Air Quality and Climate Change, 44(2): 22-27.
Freer-Smith, P.H., Beckett, K.P. and Taylor, G., 2005. Deposition velocities to Sorbus aria, Acer campestre, Populus deltoides × trichocarpa ‘Beaupre’, Pinus nigra × Cupressocyparis leylandii for coarse, fine and ultra-fine particles in the urban environment. Environmental Pollution 133: 157-167.
Holmes, N.S. and Morawska, L. 2006. A Review of Dispersion Modelling and its application to the dispersion of particles: An overview of different dispersion models available. Atmospheric Environment 40(30): 5902-5928.
Kampa, M. and Castanas, E. 2008. Human Health effects of air pollution. Environmental Pollution 151: 362-36.
Lin, C., Chen, S., and Huang, K., 2005. Characteristics of metals in nano/ultrafine/fine/coarse particles collected beside a heavily trafficked road.”Environmental Science and Technology, 39: 8113–8122.
Liu, L.D., Guan, M.R., Peart, G., Wang, H., Li, Z., 2013. The dust retention capacities of urban vegetation-a case study of Guangzhou, South China,” Environmental Science and Pollution Research, 20(9): 6601–6.
Mahowald, M., Albani, S., Kok, J., Engelstaeder, S., Scanza, R., Ward, D.S., Flanner, M.G., 2014. The size distribution of desert dust aerosols and its impact on the Earth system. Aeolian Research 15: 53-71
Mulawa, P.A., Cadle, S.H., Knapp, K., Zweidinger, R., Snow, R., Lucas, R., Goldbach, J. 1997. Effect of ambient temperature and E-10 fuel on primary exhaust particulate matter emissions from light-duty vehicles. Environmental Science and Technology 31: 1302–1307.
Mulligan, D.R., 1996. Environmental Management in the Australian Minerals and Energy Industries: Principles and Practices. UNSW Press, Sydney, Australia.
Prajapati, S.K. and Tripathi, B.D. 2008. Assessing the toxicity of urban air pollutants in Varanasi City using Tradescantia Micronucleus (Trad-MCN) Bioassay. Environment International, 34(8): 1091-1096
Squires, V. R. 2016a. Dust Particles and Aerosols: Impact on Biota “A Review” (Part I) Journal of Rangeland Science, 6(1): 82-91
Squires, V .R. 2016b. Dust Particles and Aerosols: Impacts on Plants : A Review (Part 2) Journal of Rangeland Science, 6 (2):177-193
Telesca, L. and Lovallo, M. 2011. Complexity analysis in particulate matter measurements. Computational Ecology and Software, 1(3): 146-152.
Vincent, J.H. 1995. Aerosol Science for Industrial Hygienists. Elsevier Science, Oxford, UK.
WHO (World Health Organization). 1987. Hazard Prevention and Control in the Work Environment: Airborne Dust. World Health Organization. WHO/SDE/OEH/99.14.
