Determination of Elements in Indoor Dust at Residential Buildings Nearby a Quarry Site
About this article
Keywords:
Elements, Indoor Dust, Geoaccummulation index, Residential, QuarryAbstract
Fifteen residence houses at different distances from a nearby limestone quarry were chosen to determine the concentration of elements in an indoor dust study. The samples were collected using a brush and a plastic dust pan. The elements concentrations were determined by wet digestion method with analysis using inductively coupled plasma–optical emission spectrometer (ICP-OES). The results show that the mean elements concentrations in residences houses were in the range 7.96 - 21.19, 0.21 – 0.83, 1.29 – 4.57, 0.14 – 0.26, 0.01 – 0.04 and 0.01 – 0.03 mgkg-1 for Ca, Mg, Fe, Ni, Pb and Zn respectively. The elements concentration in the investigated residential buildings areas were followed the order Ca > Fe > Mg > Zn > Ni > Pb. The evaluation of the elements contamination status of the indoor dust was carried out by using the geoaccumulation index (Igeo). Geoaccumulation index (Igeo) reveal that indoor dust of residential buildings was strongly polluted (Igeo > 5) with Ca, Mg and Fe.
References
Wan Zulasmin Wan Ibrahim 2009 Towards Sustainable Quarry In-dustry in Malaysia. Malaysia, Jurutera.pp 42-46
Banez J., Ajaon, S. M., Bilolo, J. R., Dailyn, J. M. (2010). Quarry-ing and Its Environmental Effects.
Bluvshtein, N., Mahrer, Y., Sandler, A., Rytwo G. (2011). Evaluat-ing the Impact Of A Limestone Quarry On Suspended And Accu-mulated Dust. Atmospheric Environment 45(9): 1732-1739.
Adekola, F.A. and Dosumu, O.O. (2001). Heavy metal determina-tion in household dust from Ilorin City, Nigeria. J. Nigeria Society for Experimental Biology. 3 (1) : 217 – 221.
Bluvshtein, N., Mahrer, Y., Sandler, A., Rytwo, G. (2011). Evaluat-ing the impact of a limestone quarry on suspended and accumulated dust. Atmospheric Environment 45 (9): 1732-1739.
View more references (5)
Peng, X., Shi, G.L., Jia, Z., Liu, Y., Shi, X.R., Xu, J., Feng, Y.C. 2016. Influence of quarry mining dust on PM2.5 in a city adjacent to a limestone quarry: Seasonal characteristics and source contributions. Science of The Total Environment. 550: 940-949
Nartey, V. K., Nanor, J. N., Klake, R. K. (2012). Effects of Quarry Activities on some Selected Communities in the Lower Manya Krobo District of the Eastern Region of Ghana. Atmospheric and Climate Sciences 02(03): 362-372.
Olusegun, O., Adeniyi, & Adeola, G 2009 Impact of Granite Quar-rying on the Health of Workers and Nearby Residents in Abeokuta Ogun State, Nigeria. Ethiopian Journal of Environmental Studies and Management, 2(1), 1–11.
Darus, F. M., Nasir, R. A., Sumari, S. M., Ismail, Z. S., Omar, N. A. (2012). Heavy Metals Composition of Indoor Dust in Nursery Schools Building. Procedia - Social and Behavioral Sciences 38: 169-175.
Glišović, J., Pešić, R., Lukić, J., Miloradović, D. 2016. Airborne Wear Particles from Automotive Brake Systems: Environmental and Health Issues. International conference on Quality of Life. 289 – 295.