Madalyn S. Blondes Christina A. DeVera Andrew G. Hunt William H. Craddock 2017 <div id="abstracts" class="Abstracts"><div id="ab005" class="abstract author" lang="en"><div id="as005"><p id="sp0005"><span>The Colorado Plateau hosts several large accumulations of naturally occurring,&nbsp;non-hydrocarbon gases, including CO</span>₂, N₂<span>, and the&nbsp;noble gases, making it a good field location to study the fluxes of these gases within the crust and to the atmosphere. In this study, we present a compilation of 1252 published&nbsp;gas-composition&nbsp;measurements. The data reveal at least three natural gas associations in the field area, which are dominated by&nbsp;hydrocarbons, CO</span>_2,<span>&nbsp;</span>and N₂&nbsp;+&nbsp;He&nbsp;+&nbsp;Ar, respectively. Most gas accumulations of the region exhibit compositions that are intermediate between the three end members. The first non-hydrocarbon gas association is characterized by very high-purity CO₂, in excess of 75 mol% (hereafter, %). Many of these high-purity CO₂<span>&nbsp;</span>fields have recently been well described and interpreted as magmatic in origin. The second non-hydrocarbon gas association is less well described on the Colorado Plateau. It exhibits He concentrations on the order of 1–10%, and centered log ratio biplots show that He occurs proportionally to both N₂<span>&nbsp;</span>and Ar. Overall ratios of N₂<span>&nbsp;to He to Ar are ≈100:10:1 and correlation in concentrations of these gases suggests that they have been sourced from the same reservoir and/or by a common process. To complement the analysis of the gas-composition data,&nbsp;stable isotope&nbsp;and&nbsp;noble-gas&nbsp;isotope measurements are compiled or newly reported from 11 representative fields (previously published data from 4 fields and new data from 7 fields). Gas sampled from the Harley Dome&nbsp;gas field&nbsp;in Utah contains nearly pure N</span>₂&nbsp;+&nbsp;He&nbsp;+&nbsp;Ar. The various compositional and stable and noble gas isotopic data for this gas indicate that noble gas molecule/isotope ratios are near crustal radiogenic production values and also suggest a crustal N₂<span>&nbsp;</span>source. Across the field area, most of the high-purity N₂&nbsp;+&nbsp;He&nbsp;+&nbsp;<span>Ar gas accumulations are associated with the mapped surface trace of structures or sutures in the&nbsp;Precambrian&nbsp;basement and are often accumulated in lower parts of the overlying&nbsp;Phanerozoic&nbsp;sedimentary cover. The high-purity gas association mostly occurs in areas interior to the plateau that are characterized by a narrow range of elevated, moderate&nbsp;heat flow&nbsp;values (53–74</span>&nbsp;mW/m²) in the ancient (1.8–1.6&nbsp;<span>Ga) basement&nbsp;terranes&nbsp;of the region. Collectively, the geochemical and geological data suggest that (1) the N</span>₂&nbsp;+&nbsp;He&nbsp;+&nbsp;<span>Ar gas association is sourced from a crustal reservoir, (2) the gas association migrates preferentially along structures in the Precambrian basement, and (3) the sourcing process relates to heating of the crust. Prospecting for noble-gas accumulations may target areas with elevated&nbsp;Cenozoic&nbsp;heat flow, ancient crust, and deep&nbsp;crustal structures&nbsp;that focus gas migration. High-purity CO</span>₂<span>&nbsp;</span>gas may also migrate through regional basement structures, however, there is not always a clear spatial association. Rather, CO₂<span>&nbsp;</span>accumulations are more clearly associated with zones of high heat flow (&gt;63&nbsp;mW/m²<span>) that sit above hot&nbsp;upper mantle&nbsp;and are proximal to Cenozoic&nbsp;volcanic rocksnear the plateau margins. These observations are consistent with previous interpretations of a magmatic gas source, which were based on geochemical measurements.</span></p></div></div></div> application/pdf 10.1016/j.gca.2017.05.017 en Elsevier Mantle and crustal gases of the Colorado Plateau: Geochemistry, sources, and migration pathways article