Abstract
The study was conducted in peri-urban areas of Multan, Pakistan for the assessment of heavy metals risk on animal health by
the consumption of maize as fodder grown with different types of wastewater/water and its source apportionment. Total 120
samples (wastewater, soil, raw milk, and maize plants) from six sites were collected and analyzed for cadmium, chromium,
copper, manganese, nickel and lead contents by inductively coupled plasma-optical emission spectrometry (ICP-OES). The
maize plants grown with industrial effluents were highly contaminated and exhibited the highest carcinogenic health risk and
the lowest at the canal water irrigation site. The Total Target Health Quotient (TTHQ) values ranged between 27.44 and 80.34
at wastewater, 2.32 and 5.0 at canal water and 3.68 and 7.5 at tube well water irrigation site. The animal population at all
studied sites were found expose to carcinogenic health risks. The multivariate statistical analysis indicated that the
wastewater/water containing heavy metals and contaminated soil were common sources of maize plants contamination. The
consumption of contaminated maize as fodder by lactating animals resulted in milk contamination which indicated that the
application of wastewater/water containing heavy metals was causing food chain contamination. The untreated wastewater is
not suitable to grow maize to use as fodder for animals
