GGrantIndex
← Search

Quantifying Carbon in the Mantle Lithosphere: Concentration, sources, and forms of carbon stored in carbonates and fluid inclusions

$252,153FY2020GEONSF

University Of Texas At Austin, Austin TX

Investigators

Abstract

Carbon is one of the most important elements on Earth, as it is the basis of all life, it fuels human civilization, and modulates climate. On Earth’s surface, carbon is exchanged between the atmosphere, terrestrial biosphere, oceans, and sediments. The timescales and amount of carbon exchanged on Earth’s surface are well characterized. However, the carbon on Earth’s surface makes up only ~1% of Earth’s total carbon budget. The vast majority of Earth’s carbon (~99%) is found in its interior (mantle and core), making it much more challenging to investigate. To better understand the long-term contribution of Earth’s interior carbon to climate and life through geologic time, our understanding of Earth’s deep carbon must be improved. This project will support a postdoctoral scholar while she explores this topic. In the proposed study, this significant gap in knowledge will be addressed by determining the amount of carbon stored in rocks from Earth’s interior (sampled by volcanoes), namely xenoliths. Through the analysis of carbonates and fluid inclusions hosted in those xenoliths, the PI will better constrain the abundance, sources, and forms of carbon stored in the mantle lithosphere using carbon and oxygen isotopes, determining the entrapment temperature and composition of fluid inclusions, and investigating aqueous carbon speciation at entrapment temperatures by theoretical thermodynamic modeling of fluid inclusion chemistry at lithospheric mantle conditions. This study will provide much needed constraints on the amount and sources of carbon in the mantle, specifically targeting samples from the southwestern United States. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

View original record on NSF Award Search →