Jacob, John Olusanya2023-12-142023-12-142008-02-14Adeniyi, A. A. 1996. Determination of cadmium, copper, iron, manganese and zinc in water leaf in dumpsites. Environment International, 22: 259-262. Oluwande, P. A. 1979. Automobile exhaust problems c= Nigeria. Ambio. 8:26-29. m e t a contents of epiphytic acrocarpus mosses within inhabited sites in South West Nigeria Environment International, 13:191-196. Oyewole, A.O. and Funtua, 1.1. 2000. Lead, copper an: zinc levels in soils along Kaduna-Zari: highway, Nigeria. Global Journal o: Environmental Science, 1:7-13. Peirce, J. J. 1998. Environmental Pollution and control Butter Worth-Oxford Heinemann, Oxford, Pp 255-257. Weirsman, Q B., Harman, M. E., Baker, G A. and Green S. E. 1987. Elemental Composition o Holycomium splendens, Hoh Rainforest Olympic National Park, Washington, USA Chemosphere, 16:2631 2639. Weiss, D., Shotyk, W. and Kempt, O. 1999. Archives c atmospheric lead pollution Naturiviossenschaften, 86:262-275. Ziethusis, R. L. 1979. General Report: health effects c trace metals. In: Atomic Absorptio Spectrometry. Welz, B.1995. VCH Weinhcin Germany, pp 375-382. Onianwa, P. C. and Ajayi, S. 0.1987. Heavy Bean, F. R.; Mcauliffe, C. A. 1995. Chemistry and Pollution. The Ann Press Ltd, London. Friberg, L. 1993. Cadmium in the Evironment. In: Environmental Pollution, Hodge, L. Holt, Rinehard and Winston Inc., London. Grigg, B. 2001. Lead Poisoning in Children. National Institute of Health (U. S), News Release, June 2001. James, P. L. 1980. Non-health effects of air borne particulate matter. Atm. Environ., 15:431-482. Kakulu, S. E. 1993. Biological monitoring of atmospheric trace metal deposition in North Eastern Nigeria. Environ. Mon. Ass., 28: 137-143. Lee, R. E. and Duffield, F.V. 1979. Sources of environmental important metals in the atmosphere. Advances in Chemistry,, American Chem. Soc., 172:146-168. Odero, D. R. , Semu, E. and Kamau, G N. 2000. Assessment of collage industry derived heavy metal pollution of soils within Ngara and Gikomba areas. Journal of Science and Technology, 22:52-62.https://keffi.nsuk.edu.ng/handle/20.500.14448/5475Assessment of atmospheric concentrations of lead (Pb), zinc (Zn) and cadmium (Cd) in Kudenda Industrial Layout of Kaduna town was carried out. The levels of the heavy metals accumulated in the epiphytic moss Funaria hygrometrical within the area were determined. The area was divided into ten zones of approximately equal area. Composite samples were taken from each zone. Control samples were also taken from two rural sites, outside the layout, where there are neither industrial nor commercial activities. The samples were digested using HN0i-HCl04 acid mixture (4 :!). The Flame Atomic Absorption Spectrophotometry was used to determine the metal levels in the samples. The concentrations and ranges for the metals in the study area were 88.2 ± 37.9 (48-168), 85.8 ± 23.4 (52-126) and 0.62 ± 0.13 (0.41-0.81), for Pb, Zn and Cd, respectively. The differences in the metal levels in the samples from the study area compare to those in the samples from the control sites were statistically significant. This is an indication of some levels of pollution of the study area by these metals due to industrial activities. There was a slight correlation between Pb and Zn concentrations for all zones (r- 0.55, p < 0.01) showing that similar sources might have been contributing to the levels of these metals.enAtmospheric pollution, lead, zinc, cadmium, mossesASSESSMENT OF ATMOSPHERIC CONCENTRATIONS OF LEAD, ZINC AND CADMIUM IN KUDENDA INDUSTRIAL LAYOUT, KADUNA, NIGERIAArticle