Title of article
A multi-element profile of housedust in relation to exterior dust and soils in the city of Ottawa, Canada
Author/Authors
P.E. Rasmussen ، نويسنده , , K.S. Subramanian، نويسنده , , B.J. Jessiman، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2001
Pages
16
From page
125
To page
140
Abstract
This paper presents multi-element profiles of indoor dust versus exterior soils and dusts from 50 residences located
in 10 neighborhoods across Ottawa, the capital city of Canada. Mercury concentrations were determined using
nitric sulphuric acid digestion and cold vapor AAS. Concentrations of 31 other elements were determined using
nitric hydrofluoric acid digestion and ICP-MS. Comparisons of household dust, garden soil and street dust at the
individual residence scale and at the community scale were based on a consistent 100 250- m particle size fraction.
Results showed housedust samples to contain significantly higher concentrations of many key elements, including
lead, cadmium, antimony and mercury, than either street dust or garden soil samples. Also, housedust profiles
revealed a distinct multi-element signature in relation to exterior dust and soil samples. Interestingly, garden soil
contained higher concentrations of aluminum, barium and thallium than either house or street dust. Geometric
mean concentrations Žmg kg. of these elements in household dust garden soil were: lead 233 42; cadmium
4.42 0.27; antimony 5.54 0.25; mercury 1.728 0.055; aluminum 24281 55677; barium 454 763; and thallium
0.14 0.29. Street dust contained lower geometric mean concentrations than garden soil for 23 out of a total of 32
elements. In general, indoor outdoor concentration ratios varied widely from one element to another, and from one
residence to another within the community. In the case of Ottawa, which is a city with a low concentration of heavy
industries, it would be difficult-to-impossible to accurately predict indoor dust concentrations based on exterior soil
data. It is concluded that dust generated from sources within the house itself can contribute significantly to exposures
to certain elements, such as lead, cadmium, antimony and mercury
Keywords
cold vapor atomic absorption spectrometry , trace elements , house dust , Street dust , soil , Metal sources , Lead exposure , Inductively coupled plasma massspectrometry , risk assessment
Journal title
Science of the Total Environment
Serial Year
2001
Journal title
Science of the Total Environment
Record number
982520
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