Your search keyword '"Barnes, Jaime D."' showing total 2 results

1. Remnants and Rates of Metamorphic Decarbonation in Continental Arcs.

Author

Ramos, Evan J., Lackey, Jade Star, Barnes, Jaime D., and Fulton, Anne A.

Subjects

*SURFACE of the earth, *GEOLOGICAL time scales, *CARBON cycle, *CARBON dioxide

Abstract

Metamorphic decarbonation in magmatic arcs remains a challenge to impose in models of the geologic carbon cycle. Crustal reservoirs and metamorphic fluxes of carbon vary with depth in the crust, rock types and their stratigraphic succession, and through geologic time. When byproducts of metamorphic decarbonation (e.g., skarns) are exposed at Earth's surface, they reveal a record of reactive transport of carbon dioxide (CO2). In this paper, we discuss the different modes of metamorphic decarbonation at multiple spatial and temporal scales and exemplify them through roof pendants of the Sierra Nevada batholith. We emphasize the utility of analogue models for metamorphic decarbonation to generate a range of decarbonation fluxes throughout the Cretaceous. Our model predicts that metamorphic CO2 fluxes from continental arcs during the Cretaceous were at least 2 times greater than the present cumulative CO2 flux from volcanoes, agreeing with previous estimates and further suggesting that metamorphic decarbonation was a principal driver of the Cretaceous hothouse climate. We lastly argue that our modeling framework can be used to quantify decarbonation fluxes throughout the Phanerozoic and thereby refine Earth systems models for paleoclimate reconstruction. [ABSTRACT FROM AUTHOR]

Published

2020

2. A detailed record of shallow hydrothermal fluid flow in the Sierra Nevada magmatic arc from low-δ18O skarn garnets.

Author

D'Errico, Megan E., Lackey, Jade Star, Surpless, Benjamin E., Loewy, Staci L., Wooden, Joseph L., Barnes, Jaime D., Strickland, Ariel, and Valley, John W.

Subjects

*SKARN, *GARNET crystallography, *HYDROTHERMAL deposits, *SECONDARY ion mass spectrometry, *BATHOLITHS

Abstract

Garnet from skarns exposed at Empire Mountain, Sierra Nevada (California, United 18 18 States) batholith, have variable δ18O values including the lowest known δ18O values of skarn garnet (-4.0‰) in North America. Such values indicate that surface-derived meteoric water was a significant component of the fluid budget of the skarn-forming hydrothermal system, which developed in response to shallow emplacement (~3.3 km) of the 109 Ma quartz diorite of Empire Mountain. Values of δ18 O, measured in situ across single garnet crystals by secondary ion mass spectrometry, vary considerably (up to 7‰) and sometimes abruptly, indicating variable mixing of meteoric, magmatic, and metamorphic water. Brecciation in the skarns and alteration of the Empire Mountain pluton suggests that fracture-enhanced permeability was a critical control on the depth to which surface waters penetrated to form skarns and later alter the pluton. Compared to other Sierran systems, much greater volumes of skarn rock suggest an exceptionally vigorous hydrothermal system that saw unusually high levels of decarbonation reaction progress, likely a consequence of the magma intruding relatively cold wallrocks inboard of the main locus of magmatism in the Sierran arc at that time. [ABSTRACT FROM AUTHOR]

Published

2012