Response of Plane Tree (Platanus orientalis L.) toward Environmental Pollution of Erbil City

Ismail T. Ahmed; Halmat A. Sabr

doi:10.21271/ZJPAS.32.6.16

Authors

Ismail T. Ahmed Department of Soil and water, College of Agricultural Engineering Sciences, Salahaddin University-Erbil, Kurdistan Region, Iraq
Halmat A. Sabr Department of Forestry, College of Agricultural Engineering Sciences, Salahaddin University-Erbil, Kurdistan Region, Iraq

DOI:

https://doi.org/10.21271/ZJPAS.32.6.16

Keywords:

Chlorophyll content; Soil heavy metals; Leaf area; Air pollution

Abstract

The objective of the present study was to evaluate the leaves of plane tree (Platanus orientalis L.) impaired by traffic pollution. Trees from four locations of Erbil City were investigated. Leaf morphology, leaf and soil heavy metal concentration and leaf pigments were measured from the collected leave samples. One way ANOVA was used to compare means and determine significant variation among the studied parameters. The highest increase in chlorophyll a and total chlorophyll were obtained in Sami Abul-Rahman Park whereas, the highest reduction was observed in Ainkawa road. Likewise in case of carotenoid contents, non significant effect was obtained from samples. The study obviously points out that the motor vehicles stimulate air pollution may result in decreases the concentration of photosynthetic pigments in the plane trees exposed to road side air pollution. It is shown that the lowest metal concentrations were detected in Sami Abul-Rahman Park in comparing with the other locations. It is shown that the lowest metal concentrations such as Ni, Zn, Mn and Fe in soil and plant samples were detected in Gulan Street When compared with the other locations. According to the geoaccumulation index (I_geo), the soils were classified into uncontaminated and uncontaminated to moderately contaminate.

References

BALASOORIYA, B.L.W.K., SAMSON, R., MBIKWA, F., VITHARANA, W.A.U., BOECKX, P., Van & Meirvenne, M., 2009. Biomonitoring of urban habitat quality by anatomical and chemical leaf characteristics. Environmental and Experimental Botany Journal. 65, 386–394.

BECKETT KP, FREER-SMITH PH, & Taylor G. 2000. Particulate pollution capture by urban trees: effect of species and wind speed. Global Change Biology Journal. 6:995–1003

DINEVA, S.B. 2004. Comparative studies of the leaf morphology and structure of white ash Fraxinus americana L. and London plane tree Platanus acerifolia Willd growing in polluted area. Dendrobiology Journal, 52, pp.3-8..

FAY, M., WILBUR, S. M. A., ABADIN, H. M. S., INGERMAN, L. & SWARTS, S. G. 2005. Toxicological Profile for Nickel. Nation. Academic Press of Georgia: 351pp.

FORSTNER, U., W. AHLF, & W. CALMANO. 2014. “Sediment quality objectives and criteria development in Germany” Water Science and Technology Journal. no. 28, pp. 307.

GJOKA, F., HENNINGSEN, P. F., WEGENER, H. R.., SALILLARI, I & Beqiraj, A.. 2011. Heavy metal in soil from Tarina (Albania). Environmental Monitoring and Assessment Journal. 172: 517-527.

GUPTA, M.C. & GHOUSE A.K.M. 1988. Effects of coal smoke pollutants from different sources in the growth, chlorophyll content, stem anatomy and cuticular traits of Euphorbia hirta L. Environmental Pollution Journal. 47: 221–230.

JAHAN, S. & IQBAL M.Z. 1992. Morphological and anatomical studies of leaves of different plants affected by motor vehicles exhaust. Journal of Islamic Academy of Sciences. 5: 1, 21–23.

JOSHI, N., CHAUHAN, A. & JOSHI, P.C. 2009. Impact of industrial air pollutants on some biochemical parameters and yield in wheat and mustard plants. The Environmentalist Journal. 29: 398-404.

KAMBEZIDIS, H. D., ADAMOPOULOS, A. D. & GUEYMARD, C. 1996. Total NO2 column amount over Athens, Greece in 1996–97. Atmospheric Research Journal 57(1), pp.1-8.

KARDEL, F., WUYTS, K., BABANEZHAD, M., VITHARANA, U.W.A., WUYTACK, T., POTTERS, G., SAMSON, R. 2010. Assessing urban habitat quality based on specific leaf area and stomatal characteristics of Plantago lanceolata L. Environmental Pollution Journal. 158: 788-794.

KOWALSKA, J., MAZUREK, R. Ga., SIOREK, M., SETLAK, M., ZALESKI, T. & WAROSZEWSKI, J. 2016 “Soil pollution indices conditioned by medieval metallurgical activity: A case study from Krakow (Poland)”. Environmental Pollution Journal, 218, 1023–1036.

MULLER, G. 1979. Index of geo-accumulation in sediments of the Rhine River. Geo Journal., no. 2, pp.108-118.

NESMITH, D.S. 1991. Nondestructive leaf area estimation of rabbiteye blueberries. American Society for Horticultural Science. 26(10), pp.1332-1332.

NOORMETS, A., MCDONALD, E.P., Dickson, R.E., Kruger, E.L., Sober, A., Isebrands J.G. & Karnosky, D.F. 2001. The effect of elevated carbon dioxide and ozone on leaf- and branch-level photosynthesis and potential plant-level carbon gain in aspen. Trees-Structure Function Journal. 15: 262-270.

PATTON, L. 1985. Photosynthesis and growth of willows used for short rotation forestry (Doctoral dissertation, Trinity College Dublin).

REIMANN, C., & GARRET, R. G. 2005. Geochemical background: Concept and reality. Science of the Total Environment Journal. 350, 12–27.

SAWIDIS, T., CHETTRI, M. K., Papaioannou, A., Zachariadis, A. & Stratis, J. 2001. A study of metal distribution from lignite fuels using trees as biological monitors. Ecotoxicology and Environmental Safety. 48:27–35.

SITKO, R., ZAWISZA, B., JURCZYK, J., BUHL, F. & ZIELONKA, U. 2004. Determination of High Zn and Pb Concentrationsin Polluted Soils Using Energy-Dispersive X-rayFluorescence Spectrometry. Journal of Environmental Studies and Sciences. 13(1): 91-96.

SUMANTA, N., HAQUE, C.I., NISHIKA, J. & SUPRAKASH, R. 2014. Spectrophotometric analysis of chlorophylls and carotenoids from commonly grown fern species by using various extracting solvents. Research Journal of Chemical Sciences ISSN, 2231, p.606X.

TIJANI, M. N., Jinno, K. & Hiroshiro, Y. 2004. Environmental impact of heavy metals distribution in water and sediments of Ogunpa River, Ibadan area, Southwestern Nigeria”, Mining and Geology Journal. 40:73-84.

TIWARI, S., AGRAWAL M. & Marshall, F.M. 2006. Evaluation of ambient air pollution impact on carrot plants at a sub urban site using open top chambers. Environmental Monitoring and Assessment Journal.119: 15-30.

VESELKIN D. V. 2004. Anatomical Structure of Ectomycorrhiza in Abies sibirica Ledeb. and Picea obovata Ledeb. under Conditions of Forest Ecosystems Polluted with Emissions from Copper-Smelting Works Russian. Journal of Ecology. (ISSN 1067–4136), Vol. 35: 71.

WHO (2006) Air quality guidelines for particulate matter, ozone, nitrogen dioxide and sulphur dioxide. Global update 2005. WHO Regional Office for Europe, Copenhagen, Denmark, ISBN 9289 021926.

WOO, S.Y., Lee, D. K. & Lee, Y.K. 2007. Net photosynthetic rate, ascorbate peroxidase and glutathione reductase activities of Erythrina orientalis in polluted and non-polluted areas. Journal for Photosynthesis Research. 45: 293-295