Soil lead and human health exposure risks: studies from Australia and the United States of America
thesisposted on 28.03.2022, 21:07 by Mark Andrew Scott Laidlaw
Urban surface soils have been contaminated with lead (Pb) primarily from the former use of Pb additives in petrol and Pb paint, and in some instances from Pb smelters. These exposures continue to pose an ongoing risk to human health globally. Lead is a neurotoxin. When it is absorbed, inhaled or ingested, it can affect the development of the child’s nervous system causing lower intelligence quotient measures, Attention Deficit Hyperactivity Disorder (ADHD) and delinquent behaviors In a series of 8 published peer-reviewed papers (and one response to comments paper), this thesis assesses soil Pb contributions to blood Pb (PbB) in Australia and the USA. In addition, the study assesses the role of Pb additives in petrol (gasoline) as a potential source of blood PbB in children. In evaluating the potential role of petrol Pb additives for elevating children’s PbB levels and urban soil Pb levels, the spatial and temporal variation of Pb in atmospheric and household dusts were evaluated. The results from the thesis studies demonstrate that the historical use of leaded gasoline and Pb in exterior paints has contaminated urban soils to levels that pose a potential risk of harm to children. Leaded gasoline is a major source of Pb urban soils and house dust. Children’s PbB levels are associated spatially with soil Pb concentrations and temporally with atmospheric soil and Pb concentrations. Roadside soils contaminated with Pb are subject to re-suspension by vehicle movement, which causes dispersal into the urban environment. This thesis indicates that the paradigm that Pb paint is the sole primary source of Pb exposure in urban children is incorrect. Ongoing exposure from legacy deposition of Pb from petrol is also a major source of exposure in children and still poses a significant risk of harm.
Table of ContentsChapter 1. Introduction, aims and approach to the study -- Chapter 2. Petrol derived PB in urban surface soils is a major source of PB in house dust and has the potential to poison children in the inner cities of Australia -- Chapter 3. Estimation of historical vehicle traffic PB emission in US and California urbanized areas and their legacy in urban soils and continued effects on children's health -- Chapter 4. Soil PB and children's blood PB levels are associated spatially and temporally in urban areas: a new paradigm pointing towards a cost-effective solution -- Chapter 5. Discussion -- Chapter 6. Conclusions.
NotesThis thesis is presented for the award of Doctor of Philosophy (Environmental Science)" "1 April, 2014 Bibliography: pages 163-180
Awarding InstitutionMacquarie University
Degree TypeThesis PhD
DegreePhD, Macquarie University, Faculty of Science, Department of Environment and Geography
Department, Centre or SchoolDepartment of Environment and Geography
Year of Award2014
Principal SupervisorMark Taylor
RightsCopyright disclaimer: http://www.copyright.mq.edu.au Copyright Mark Andrew Scott Laidlaw 2014. Complete version suppressed due to copyright restrictions. However, on receipt of a Document Supply Request, placed with Macquarie University Library by another library, we will consider supplying a copy of this thesis. For more information on Macquarie University's Document Supply, please contact email@example.com
Extent1 online resources (xvii, 187 pages) illustrations (some colored), maps, charts
Former Identifiersmq:31857 http://hdl.handle.net/1959.14/295131 2191703
seasonalityLead-poisoningleadLeadPetroleum chemicals industry -- Health aspectsPetroleum -- AustraliaPetroleumChildren -- DiseasesPetroleum chemicals industryresuspensionPbbloodPetroleum as fuelLead -- Physiological effectLead in the bodyChildrenexposurePetroleum -- CaliforniaPetroleum chemicalschildrenPetroleum chemicals -- Toxicologysoil