Mn levels in nail were higher than

Mn levels in nail were higher than in hair in rural and urban
areas (BAF 0.17 and 0.57, respectively), while we found the opposite
trends for industrial areas (Table 3). Such patterns point to
dust contamination as main source of Mn. This metal in humans
may cause severe neurological illness like Parkinson disease, and
neuro-lethality (Mora et al., 2014). Cr as well showed high levels
in nail samples in our study. Cr is readily discharged from the
human body through urination, but its high levels indicate long
term exposure through dust (ATSDR, 2007). Cr+6 poses major
health risks as well known carcinogen (ATSDR, 2007; Kurt-
Karakus, 2012), while Cr+3 is an essential nutrient for normal metabolism.
In our study, Cr levels were high at all studied sites, so that
they could potentially cause hematological problems and male
infertility by affecting sperm motility (ATSDR, 2007). Cr and Cu
are widely used in leather and paint production and the effluent
from the industries may play an important role in contaminating
the environment and ultimately being introduced in the food chain
(ATSDR, 2007).
3.6. Risk assessment via dust exposure and concludary remarks
In order to assess the human health risk from trace metal exposure
via dust in different areas of Punjab, we computed the HQ values
for the trace metals and for the three study areas (Table 4). HQ
values for carcinogenic Cr were also calculated. The HQ values
show that dust ingestion is the main route of Cr-carcinogenic contamination
for both children and adults at all studied site locations.
The results for industrial and urban children population were
alarming but fall with the US EPA threshold limits (1  104–
1  106), showing that Cr carcinogenic risk is acceptable as it
would not cause severe risks for human health to surrounding
exposed population (with few exception from industrial areas).