John McAlister scite author profile

John McAlister

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45Publications

413Citation Statements Received

467Citation Statements Given

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Affiliations

Queen's University Belfast, Queens University

Publications

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Aeolian abrasion of quartz particles and the production of silt-size fragments: preliminary results

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et al. 1987

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Geochemical Distribution and Bioavailability of Heavy Metals and Oxalate in Street Sediments from Rio de Janeiro, Brazil: A Preliminary Investigation

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et al. 2005

Environ Geochem Health

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As urbanisation accelerates within less-economically developed countries, populations in cities such as Rio de Janeiro are subject to numerous health risks relating to "heavy metal", sewage and vehicle pollution. These risks apply especially to children, through inhalation and dermal contact with pollutant-rich street sediments that reflect contamination from atmospheric deposition and act as effective sinks for heavy metals and oxalates. To assess the nature and extent of these risks street sediments were collected from industrial, commercial, residential and recreational areas with varying traffic densities within Rio de Janeiro. A modified selective extraction procedure was used to study the geochemical partitioning and bioavailability of Fe, Mn, Zn, Cu, Cr, Ni, Pb and C(2)O(4) (-). Oxalate partitioning has not been studied by traditional sequential methods and results from this procedure highlight the potential bioavailability of both oxalates and "heavy metals", especially Pb and C(2)O(4) (-) in industrial and recreational areas.

Observations on the factors influencing stability of building stones following contour scaling: a case study of oolitic limestones from Budapest, Hungary

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et al. 2003

Building and Environment

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Modelling the rapid retreat of building sandstones: a case study from a polluted maritime environment

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et al. 2002

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Sandstones are widely used as building stones throughout NW Europe. Unlike limestone, sandstones tend to experience episodic and sometimes rapid surface retreat associated with the action of salts and often leading to the development of hollows/caverns in the stone. The unpredictability of these decay dynamics can present significant problems when planning conservation strategies. Consequently, successful conservation requires a better understanding of the factors that trigger decay and determine the subsequent decay pathway. An overview of results from previous studies provided the basis for simulation experiments aimed at identifying the factors that (a) initiate decay and (b) permit the continuance of salt weathering despite rapid loss of surface material. These simulation studies involve investigation of changes in micro-environmental conditions as surface hollows develop and examination of salt weathering dynamics within such hollows. These data combined with knowledge gained from previous work have allowed the refinement of a conceptual model of rapid sandstone retreat. In this model decay is linked to the establishment of positive feedback conditions through interactions between factors such as porosity, permeability, mineralogy and their effect on salt penetration.

Element partitioning and potential mobility within surface dusts on buildings in a polluted urban environment, Budapest

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2006

Atmospheric Environment

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Forest clearance: impact of landuse change on fertility status of soils from the São Francisco area of Niterói, Brazil

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1998

Land Degrad. Dev.

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Equatorial weathering, landform development and the formation of white sands in north western Kalimantan, Indonesia

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1999

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Transition metals and water-soluble ions in deposits on a building and their potential catalysis of stone decay

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2008

Atmospheric Environment

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