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EARTH OBSERVATION
Research reveals 'fundamental finding' about Earth's outer core
by Staff Writers
Tallahassee FL (SPX) Dec 21, 2018

Assistant Professor of Geology Mainak Mookherjee.

The Earth's core is an exceptionally difficult place to study. Its depths descend a staggering 2,900 kilometers - about the distance from New York City to Denver - and its extreme, otherworldly conditions are extraordinarily challenging to simulate in the lab.

For scientists like Florida State University Assistant Professor Mainak Mookherjee and his postdoctoral scholar Suraj Bajgain, whose lives' work is to penetrate the mysteries hidden in the core's impossible depths, these are serious and stubborn roadblocks.

But in a new study published in the journal Geophysical Research Letters, Mookherjee and his team used high-powered supercomputing techniques to sidestep these obstacles and make a critical discovery about the core's chemical composition.

Along with colleagues at Rice University and Louisiana State University, Mookherjee and Bajgain used meticulously calibrated simulations to determine the maximum amount of nitrogen that can possibly exist in the Earth's outer core: around 2 percent by weight at the core-mantle boundary, and about 2.6 percent by weight at the inner-core boundary.

"This is an insightful exercise because it gives the upper-most bound of nitrogen in the outer core," Mookherjee said. "We are providing maximum constraint on the abundance of an element that is a major component of the atmosphere of a habitable planet. That's the fundamental finding."

Nitrogen is key to organic matter, and how nitrogen is stored in the planet's rocky and metallic interior is a crucial but elusive piece of information.

"When a planet is forming, size of the planet and how much nitrogen - or any other light element - is sucked into the core is very important," Mookherjee said. "If you're thinking of life as organic life, carbon and nitrogen are important constituents. But if all the nitrogen goes into the core, there's nothing left to fuel organic life."

Questions of which elements roil in the cauldron of the Earth's core have long puzzled Earth scientists. Important dissonances in prevailing seismological and geochemical models have gone unexplained, and analyses of meteorites that closely model Earth's bulk rocky material tend to suggest that we should be seeing more nitrogen in our planet's interior. These inconsistencies provoke perplexing questions.

"Geochemical evidence often points to the fact that the Earth's interior might be depleted in terms of nitrogen inventory," Mookherjee said.

"Are we lacking it? Is it hidden in the core? These are unknowns. There are various models, but it's impossible to access the Earth's core, and we do not have direct evidence of the planet's formation process, including redistribution of elements. We're trying to make inferences by piecing evidence together."

Mookherjee circumvented the considerable challenges of experimenting at extreme core conditions by simulating those conditions on powerful supercomputers. Using facilities at LSU, as well as the National Science Foundation's XSEDE facility in Texas, the researchers ran a series of molecular dynamic simulations, which provide critical data on the behavior of liquids and solids exposed to high temperature and enormous pressure.

After a battery of benchmark tests to ensure the simulations were running properly, the team added nitrogen to the system. Their goal was to identify the effects of nitrogen on the density and sound wave velocity of liquid iron at conditions analogous to the Earth's core - readings that would better allow them to determine the core's nitrogen content.

Ultimately, the simulations successfully revealed a first-ever, geophysical data-based hint about how much nitrogen might be trapped deep in the Earth's inhospitable interior.

"Our estimates on the maximum limit of nitrogen in the Earth's outer core is based on the assumption that Earth's core is composed of an iron-nitrogen binary mixture, but more research is needed to incorporate the effect of multiple elements alloying with iron," Mookherjee said.

Research paper


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