Dissolution Kinetics of Andesitic-Dacitic Ash: Experimental Weathering Rate Determinations
Dissolution rates and stoichiometry of the dissolution of basaltic andesites to trachydacitic ash from five volcanic eruptions (1980 Mount St. Helens, USA; 1991 Mt. Pinatubo, Philippines; 2010 Eyjafjallajökull, Iceland; 2010 Pacaya, Guatemala; 2010 Tungurahua, Ecuador) were investigated as part of a...
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The Ohio State University
2012
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| Online Access: | http://hdl.handle.net/1811/58827 |
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ftohiostateu:oai:kb.osu.edu:1811/58827 2023-05-15T16:09:43+02:00 Dissolution Kinetics of Andesitic-Dacitic Ash: Experimental Weathering Rate Determinations Portier, Andrea Carey, Anne 2012-06 application/pdf http://hdl.handle.net/1811/58827 en_US eng The Ohio State University The Ohio State University. School of Earth Sciences Honors Theses; 2012 http://hdl.handle.net/1811/58827 Volcanic Ash Weathering Dissolution of volcanic ashes Laboratory batch experiments weathering rates of andesitic ash Long term and short term atmospheric CO2 removal dissolution kinetics Thesis 2012 ftohiostateu 2020-08-22T19:29:10Z Dissolution rates and stoichiometry of the dissolution of basaltic andesites to trachydacitic ash from five volcanic eruptions (1980 Mount St. Helens, USA; 1991 Mt. Pinatubo, Philippines; 2010 Eyjafjallajökull, Iceland; 2010 Pacaya, Guatemala; 2010 Tungurahua, Ecuador) were investigated as part of a study to determine the impact of ash weathering on the potential drawdown of atmospheric CO2. All ash samples except for the Pinatubo ash were collected within days of deposition. Pinatubo ash was collected in 2008 from the side of a valley that had experienced rapid physical erosion. Ash dissolution experiments were conducted in batch reactors with water or dilute hydrochloric acid over a range of pH (pH ~ 3, 4, 5 and 7) for approximately six months. Dissolution rates and concentrations of major elements and ions (H4SiO4, PO43-, Ca2+, Mg2+) were determined from the evolution of solution composition over time. Here after, major elements and ions are referred as Si, PO4, Ca, and Mg. Ash samples were characterized before and after the experiments by BET surface area analysis, scanning electron microscopy and X-ray fluorescence to determine changes in physical, chemical and mineralogical properties of the ash. Dissolution kinetics are dependent on the composition, mineralogy, texture, particle size of the ash, and solution pH. Reaction rates increased with increasing acidity, although the pH-dependence of the ash dissolution is complex. Silica concentrations increase approximately linearly over time, and total Si in the experiments increases ~ 2 to 5-fold with increasing acidity. Phosphate concentrations are more variable in solution in comparison to dissolved silica. All experiments showed an initial rapid release of phosphate, and then concentrations either increased more slowly, remained constant, or decreased slightly over time depending on the experiment. The dissolution of trace minerals, such as apatite which is commonly found in igneous materials, may be important because they release nutrients such as phosphate into solution, suggesting an influence in the short-term carbon consumption as biomass. Equilibrium solubility calculations show that solutions are greatly undersaturated with respect to silicate minerals and apatite. The presence of dissolved iron suggests that the solubility of secondary phosphate minerals, such as iron-phosphate present in solubility calculations, may be limiting phosphate release. The solubility and reactivity are key components in determining the volcanic ashes’ potential for short-term and long-term CO2 sequestration. Shell Exploration and Production Company Arts and Sciences Undergraduate Research Scholarship A one-year embargo was granted for this item. Thesis Eyjafjallajökull Iceland Ohio State University (OSU): Knowledge Bank |
| institution |
Open Polar |
| collection |
Ohio State University (OSU): Knowledge Bank |
| op_collection_id |
ftohiostateu |
| language |
English |
| topic |
Volcanic Ash Weathering Dissolution of volcanic ashes Laboratory batch experiments weathering rates of andesitic ash Long term and short term atmospheric CO2 removal dissolution kinetics |
| spellingShingle |
Volcanic Ash Weathering Dissolution of volcanic ashes Laboratory batch experiments weathering rates of andesitic ash Long term and short term atmospheric CO2 removal dissolution kinetics Portier, Andrea Dissolution Kinetics of Andesitic-Dacitic Ash: Experimental Weathering Rate Determinations |
| topic_facet |
Volcanic Ash Weathering Dissolution of volcanic ashes Laboratory batch experiments weathering rates of andesitic ash Long term and short term atmospheric CO2 removal dissolution kinetics |
| description |
Dissolution rates and stoichiometry of the dissolution of basaltic andesites to trachydacitic ash from five volcanic eruptions (1980 Mount St. Helens, USA; 1991 Mt. Pinatubo, Philippines; 2010 Eyjafjallajökull, Iceland; 2010 Pacaya, Guatemala; 2010 Tungurahua, Ecuador) were investigated as part of a study to determine the impact of ash weathering on the potential drawdown of atmospheric CO2. All ash samples except for the Pinatubo ash were collected within days of deposition. Pinatubo ash was collected in 2008 from the side of a valley that had experienced rapid physical erosion. Ash dissolution experiments were conducted in batch reactors with water or dilute hydrochloric acid over a range of pH (pH ~ 3, 4, 5 and 7) for approximately six months. Dissolution rates and concentrations of major elements and ions (H4SiO4, PO43-, Ca2+, Mg2+) were determined from the evolution of solution composition over time. Here after, major elements and ions are referred as Si, PO4, Ca, and Mg. Ash samples were characterized before and after the experiments by BET surface area analysis, scanning electron microscopy and X-ray fluorescence to determine changes in physical, chemical and mineralogical properties of the ash. Dissolution kinetics are dependent on the composition, mineralogy, texture, particle size of the ash, and solution pH. Reaction rates increased with increasing acidity, although the pH-dependence of the ash dissolution is complex. Silica concentrations increase approximately linearly over time, and total Si in the experiments increases ~ 2 to 5-fold with increasing acidity. Phosphate concentrations are more variable in solution in comparison to dissolved silica. All experiments showed an initial rapid release of phosphate, and then concentrations either increased more slowly, remained constant, or decreased slightly over time depending on the experiment. The dissolution of trace minerals, such as apatite which is commonly found in igneous materials, may be important because they release nutrients such as phosphate into solution, suggesting an influence in the short-term carbon consumption as biomass. Equilibrium solubility calculations show that solutions are greatly undersaturated with respect to silicate minerals and apatite. The presence of dissolved iron suggests that the solubility of secondary phosphate minerals, such as iron-phosphate present in solubility calculations, may be limiting phosphate release. The solubility and reactivity are key components in determining the volcanic ashes’ potential for short-term and long-term CO2 sequestration. Shell Exploration and Production Company Arts and Sciences Undergraduate Research Scholarship A one-year embargo was granted for this item. |
| author2 |
Carey, Anne |
| format |
Thesis |
| author |
Portier, Andrea |
| author_facet |
Portier, Andrea |
| author_sort |
Portier, Andrea |
| title |
Dissolution Kinetics of Andesitic-Dacitic Ash: Experimental Weathering Rate Determinations |
| title_short |
Dissolution Kinetics of Andesitic-Dacitic Ash: Experimental Weathering Rate Determinations |
| title_full |
Dissolution Kinetics of Andesitic-Dacitic Ash: Experimental Weathering Rate Determinations |
| title_fullStr |
Dissolution Kinetics of Andesitic-Dacitic Ash: Experimental Weathering Rate Determinations |
| title_full_unstemmed |
Dissolution Kinetics of Andesitic-Dacitic Ash: Experimental Weathering Rate Determinations |
| title_sort |
dissolution kinetics of andesitic-dacitic ash: experimental weathering rate determinations |
| publisher |
The Ohio State University |
| publishDate |
2012 |
| url |
http://hdl.handle.net/1811/58827 |
| genre |
Eyjafjallajökull Iceland |
| genre_facet |
Eyjafjallajökull Iceland |
| op_relation |
The Ohio State University. School of Earth Sciences Honors Theses; 2012 http://hdl.handle.net/1811/58827 |
| _version_ |
1766405552388177920 |