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2573017 
Journal Article 
Condition of Soils and Vegetation Along Roads Treated with Magnesium Chloride for Dust Suppression 
Goodrich, BA; Koski, RD; Jacobi, WR 
2009 
Water, Air, and Soil Pollution
ISSN: 0049-6979
EISSN: 1573-2932 
198 
1-4 
165-188 
WOS:000263261500016 
Investigations of vegetation stress along non-paved roads treated with a range of magnesium chloride (MgCl(2)) application rates utilized 60 roadside and 79 drainage plots on 15 and 18 roads, respectively. Evaluations were completed of foliar damage, plant health, biotic and abiotic damage incidence and severity, soil and foliar chemistry and other common site and stand characteristics of Pinus contorta, Populus tremuloides, Picea engelmannii, Abies lasiocarpa, and lower elevation plots dominated by shrubs and grasses. High concentrations of soil magnesium and chloride (400-500 ppm), high foliar chloride (2,000-16,000 ppm depending on species) and high incidence of foliar damage were measured in roadside plots along straight road segments in the first 3 to 6.1 m adjacent to treated roads. In drainage plots, where water is channeled off roads, high concentrations of both magnesium and chloride ions and associated foliar damage were measured between 3 and 98 m from the road. High incidence of foliar damage and elevated ion concentrations were not apparent in control plots along non-treated roads. Lodgepole pine appeared to be the most sensitive species, while aspen accumulated the most chloride and exhibited the least amount of damage. Foliar chloride concentrations strongly correlated with percent foliar damage for all species (r = 0.53 to 0.74, p < 0.0001) while the incidence of biotic damages did not correlate well. Positive relationships between foliar chloride and magnesium chloride application rates were strong and can be used to predict foliar concentrations and subsequent damage to roadside trees. 
Aspen; Dust abatement; Gravel roads; Engelmann spruce; Lodgepole pine; Magnesium chloride; Non-paved roads; Roadside vegetation; Road stabilizers; Salinity; Subalpine fir; Unpaved roads