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Zimmer, M.M., Fischer, T.P., Hilton, D.R., Alvarado, G.E., Sharp, Z.D. and Walker, J.A. (2004). Nitrogen systematics and gas fluxes of subduction zones: Insights from Costa Rica arc volatiles. Geochemistry Geophysics Geosystems 5: doi: 10.1029/2003GC000651. issn: 1525-2027. |
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Volcanic gases are a powerful tool for assessing magmatic processes in subduction zones. We report gas chemistry and nitrogen isotope compositions of fumaroles, bubbling springs, and geothermal wells from the Costa Rican segment of the Central American volcanic segment (CAVS), and new correlation spectroscopy (COSPEC) SO2 flux measurements of Po¿s and Arenal volcanoes. N2/He ratios (100--8,250) and nitrogen isotope compositions (d15N = -3.02 to +1.69?) of Costa Rica volatiles are consistent with sources ranging from typical arc-type end-members, with nitrogen addition from the subducting slab, to MORB end-member, having experienced no slab modification. Overall, nitrogen-helium chemistry of Costa Rican material indicates a diminished slab contribution versus other locations along the arc (e.g., Nicaragua and Guatemala). We use SO2 flux measurements of Po¿s and Arenal (1.80*105 ¿ 4.00*104 and 8.30*103 ¿ 4.00*103 kg/day, respectively, or 1.30*105 ¿ 6.25*104 and 2.81*106 ¿ 6.25*105 mol/day, respectively) to extrapolate a SO2 flux for the Costa Rica segment of 1.09*109 mol/day. Using CO2/St (St = total sulfur) of 2.7 and 5.9, we calculate CO2 fluxes of 1.88*108 and 4.11*108 kg/yr, respectively (2.94*109 and 6.42*109 mol/yr, respectively). Other volatile fluxes (N2, He, H2, Ar, HCl, and H2O) are calculated using CO2/St and regional gas chemistry. For Costa Rica, the output/input ratios of nitrogen are less than unity (0.03 to 0.06 for CO2/St of 2.7 and 5.9, respectively), suggesting more N is subducted than released in the subarc, possibly resulting from sediment offscraping, forearc devolatilization, limited fluid availability in the subarc, or subduction past the subarc. Volcanic gases are a powerful tool for assessing magmatic processes in subduction zones. We report gas chemistry and nitrogen isotope compositions of fumaroles, bubbling springs, and geothermal wells from the Costa Rican segment of the Central American volcanic segment (CAVS), and new correlation spectroscopy (COSPEC) SO2 flux measurements of Po¿s and Arenal volcanoes. N2/He ratios (100--8,250) and nitrogen isotope compositions (d15N = -3.02 to +1.69?) of Costa Rica volatiles are consistent with sources ranging from typical arc-type end-members, with nitrogen addition from the subducting slab, to MORB end-member, having experienced no slab modification. Overall, nitrogen-helium chemistry of Costa Rican material indicates a diminished slab contribution versus other locations along the arc (e.g., Nicaragua and Guatemala). We use SO2 flux measurements of Po¿s and Arenal (1.80*105 ¿ 4.00*104 and 8.30*103 ¿ 4.00*103 kg/day, respectively, or 1.30*105 ¿ 6.25*104 and 2.81*106 ¿ 6.25*105 mol/day, respectively) to extrapolate a SO2 flux for the Costa Rica segment of 1.09*109 mol/day. Using CO2/St (St = total sulfur) of 2.7 and 5.9, we calculate CO2 fluxes of 1.88*108 and 4.11*108 kg/yr, respect |
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Abstract |
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Abstract |
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Table 1A |
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Table 1B |
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Table 1b |
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Table 2 |
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Sampling & Analytical Procedures |
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Sampling and Analytical Procedures |
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Sampling & Analytical Procedures |
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Sampling and Analytical Procedures |
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Keywords
Atmospheric Composition and Structure, Geochemical cycles, Geochemistry, Isotopic composition/chemistry, Tectonophysics, Hydrothermal systems, Costa Rica, nitrogen isotopes, recycling, volatile flux |
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Journal
Geochemistry Geophysics Geosystems |
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Publisher
American Geophysical Union
2000 Florida Avenue N.W.
Washington, D.C. 20009-1277
USA
1-202-462-6900
1-202-328-0566
service@agu.org |
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