Citations (21)
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Pogisego Dinake, Rosemary Kelebemang & Nicholas Sehube. (2019) A Comprehensive Approach to Speciation of Lead and Its Contamination of Firing Range Soils: A Review. Soil and Sediment Contamination: An International Journal 28:4, pages 431-459.
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Pogisego Dinake, Rosemary Kelebemang, Nicholas Sehube, Obed Kamwi & Masego Laetsang. (2018) Quantitative assessment of environmental risk from lead pollution of shooting range soils. Chemical Speciation & Bioavailability 30:1, pages 76-85.
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Jack Duggan & Ankit Dhawan. (2007) Speciation and Vertical Distribution of Lead and Lead Shot in Soil at a Recreational Firing Range. Soil and Sediment Contamination: An International Journal 16:4, pages 351-369.
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Articles from other publishers (18)
Inkyeong Moon, Honghyun Kim, Sangjo Jeong, Hyungjin Choi, Jungtae Park & Insung Lee. (2021) Chemical Properties of Heavy Metal-Contaminated Soils from a Korean Military Shooting Range: Evaluation of Pb Sources Using Pb Isotope Ratios. Applied Sciences 11:15, pages 7099.
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Amanda J. Barker, Jay L. Clausen, Thomas A. Douglas, Anthony J. Bednar, Christopher S. Griggs & William A. Martin. (2021) Environmental impact of metals resulting from military training activities: A review. Chemosphere 265, pages 129110.
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Michael Schindler, Keegan Weatherhead & Haley Mantha. (2020) The Release of Incidental Nanoparticles During the Weathering of Gunshot Residue in Soils of a Shooting Range in Ontario, Canada. The Canadian Mineralogist 59:1, pages 69-89.
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Amanda J. Barker, L.E. Mayhew, T.A. Douglas, A.G. Ilgen & T.P. Trainor. (2020) Lead and antimony speciation associated with the weathering of bullets in a historic shooting range in Alaska. Chemical Geology 553, pages 119797.
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Amanda J. Barker, T.A. Douglas, A.G. Ilgen & T.P. Trainor. (2019) Lead and antimony from bullet weathering in newly constructed target berms: Chemical speciation, mobilization, and remediation strategies. Science of The Total Environment 658, pages 558-569.
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Lei Fu, Katsumi Shozugawa & Motoyuki Matsuo. (2018) Oxidation of antimony (III) in soil by manganese (IV) oxide using X-ray absorption fine structure. Journal of Environmental Sciences 73, pages 31-37.
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Michael E. Essington & Melanie A. Stewart. (2018) Adsorption of Antimonate, Sulfate, and Phosphate by Goethite: Reversibility and Competitive Effects. Soil Science Society of America Journal 82:4, pages 803-814.
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Michael E. Essington & Melanie A. Stewart. (2016) Adsorption of Antimonate by Gibbsite: Reversibility and the Competitive Effects of Phosphate and Sulfate. Soil Science Society of America Journal 80:5, pages 1197-1207.
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Michael E. Essington & Kalyn A. Vergeer. (2015) Adsorption of Antimonate, Phosphate, and Sulfate by Manganese Dioxide: Competitive Effects and Surface Complexation Modeling. Soil Science Society of America Journal 79:3, pages 803-814.
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A.G. Ilgen, F. Majs, A.J. Barker, T.A. Douglas & T.P. Trainor. (2014) Oxidation and mobilization of metallic antimony in aqueous systems with simulated groundwater. Geochimica et Cosmochimica Acta 132, pages 16-30.
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Anastasia G. Ilgen, Andrea L. Foster & Thomas P. Trainor. (2012) Role of structural Fe in nontronite NAu-1 and dissolved Fe(II) in redox transformations of arsenic and antimony. Geochimica et Cosmochimica Acta 94, pages 128-145.
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Montserrat Filella. (2011) Antimony interactions with heterogeneous complexants in waters, sediments and soils: A review of data obtained in bulk samples. Earth-Science Reviews 107:3-4, pages 325-341.
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Caleb D. Scheetz & J. Donald Rimstidt. (2008) Dissolution, transport, and fate of lead on a shooting range in the Jefferson National Forest near Blacksburg, VA, USA. Environmental Geology 58:3, pages 655-665.
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Sonia Ackermann, Reto Gieré, Matthew Newville & Juraj Majzlan. (2009) Antimony sinks in the weathering crust of bullets from Swiss shooting ranges. Science of The Total Environment 407:5, pages 1669-1682.
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Andreas C. Scheinost, Andre Rossberg, Delphine Vantelon, Irene Xifra, Ruben Kretzschmar, Ann-Kathrin Leuz, Harald Funke & C. Annette Johnson. (2006) Quantitative antimony speciation in shooting-range soils by EXAFS spectroscopy. Geochimica et Cosmochimica Acta 70:13, pages 3299-3312.
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Delphine Vantelon, Antonio Lanzirotti, Andreas C. Scheinost & Ruben Kretzschmar. (2005) Spatial Distribution and Speciation of Lead around Corroding Bullets in a Shooting Range Soil Studied by Micro-X-ray Fluorescence and Absorption Spectroscopy. Environmental Science & Technology 39:13, pages 4808-4815.
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C. Annette Johnson, Hermann Moench, Paul Wersin, Pia Kugler & Christoph Wenger. (2005) Solubility of Antimony and Other Elements in Samples Taken from Shooting Ranges. Journal of Environmental Quality 34:1, pages 248-254.
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Lars A. Knechtenhofer, Irene O. Xifra, Andreas C. Scheinost, Hannes Flühler & Ruben Kretzschmar. (2003) Fate of heavy metals in a strongly acidic shooting‐range soil: small‐scale metal distribution and its relation to preferential water flow. Journal of Plant Nutrition and Soil Science 166:1, pages 84-92.
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