Dusts on urban impervious surface h

Dusts on urban impervious surface have become one of the most important issues in urban
environmental management. On one hand, surface dusts can be easily re-suspended under certain outside dynamic condition, pollutants adsorbed on them enter human body by the pathways of respiratory
inhalation and direct skin contact and cause negative health effects (Glikson, Rutherford, & Simpon, 1995;
Tervahattu, Kupiainen, & Raisanen, 2006; Grimm, Faeth, Golubiewski, & Redman, 2008). Children and
the elderly, whose immune systems are either underdeveloped or age-compromised as well as the
inadvertent ingestion of significant quantities of dust through hand-to-mouth pathways, are more
vulnerable to toxicity (Mielke, Gonzalez, & Smith, 1999; Rasmussen, Subramanian, & Jessiman, 2001).
Study shows that lead toxicity is associated with deficits in central nervous system functioning that can
persist into young adulthood. Hair lead and cadmium are correlated with both reduced intelligence scores
and lowered school achievement scores (Oskarson, Hallen, & Sundberg, 1995). The toxicity of Cu, Cd,
Zn is acknowledged, These elements can change the function of the human central nervous system and
respiratory system, and disrupt the endocrine system. On the other hand, pollutants attached to surface
dusts can be transferred to the surrounding aquatic environment with runoff and can cause a serious threat
to the water environment and human health (Jartun, Ottesen, Steinnes, & Volden, 2008; Zhao, Li, &
Wang, 2011). Surface dust as an important carrier of contaminants, is a typical non-point source pollution
(Ball, Jenks, & Aubourg, 1998; Bris, 1999; Li, Lau, Kayhanian, & Stenstrom, 2005; Duong & Lee, 2011).
Surface dusts are a complex environmental media. Their composition reflects inputs from a variety of
sources, including water transported material from surrounding soils and slopes, dry and wet atmospheric
deposition, biological inputs, road surface wear, road paint degradation, vehicle wear (tires, body, brake
linings, etc.), vehicle fluid and particulate emissions, and inputs from the wear of sidewalks and buildings
(Sutherland, Tack, Tolosa, & Verloo, 2000). Surface dust is a valuable environmental archive as this
material is located on paved areas that are directly connected to a city's storm drainage system, and
surface dusts have been identified as the primary source of urban nonpoint pollutants entering the
receiving waters (Sutherland, Jelen, & Minton, 1999). The particle size of the dusts has an important
influence on the mobility of particles and their associated pollutant concentrations (Bian & Zhu, 2009).
Heavy metals including copper (Cu), lead (Pb), zinc (Zn) and cadmium (Cd) in surface dusts derived
from different activities i.e. industrial activities, vehicle emissions, and wear of tyre and road surface are
of particular concern due to the large impact of these heavy metals on the environment and human health
(Watt, Thomton, & Cotter-Howells, 1993; Mielke, Gonzales, & Smith, 1999; Adriano, 2001). Therefore,
studying on the characteristics of urban surface dust pollution is not only an important aspect of
evaluation of quality of urban environment, but also of great significance for human health. Several
studies of heavy metals contamination, distribution and source identification of street dusts in many cities
have been carried out. However, there is no information available on potentially toxic metals in surface
dusts and their distribution in particle size fractions in Maha Sarakham city, Thailand. The objectives of
this initial study are to understand the particle size distribution characteristic of surface dusts from
different function areas, to determine the heavy metal concentrations in each size range of surface dusts,
and to evaluate the surface dusts on human health hazards using health risk assessment model. The results
of this study in Maha Sarakham are valuable for the selection of the urban sweeping vehicles to remove
more pollutants in surface dusts. In addition, Our Findings are beneficial for the source control of nonpoint
source pollution management and improving environmental quality to promote the health of
urbanites in Maha Sarakham Municipality.