Back

Discover CALS

See how our current work and research is bringing new thinking and new solutions to some of today's biggest challenges.

|
By Blaine Friedlander
  • Department of Global Development
  • School of Integrative Plant Science
  • Soil and Crop Sciences Section
  • Global Development
  • Plants
  • Soil
  • Biology
  • Environment
Share

Morgan Irons is about to help make space-exploration history – and all she needed was a shovel and some dirt.

Irons, a doctoral student in soil and crop sciences, will see the soil she scooped from a Cornell farm organic plot launch into space on the evening of Sept. 29. It will hitch a ride aboard a resupply mission bound for the International Space Station (ISS) – orbiting about 254 miles above Earth.

On the space station, researchers have used hydroponic planting systems, seeds placed in engineered growth media, and highly modified, mineral soil, said Irons, but this experiment will be different. “This would be the first time that natural, unmodified Earth soil and engineered biochar soils have been brought up to space,” she said.

Morgan Irons holds dirt in her hands
Morgan Irons scoops up soil for the experiment’s trip into space. Photo provided

Soil aggregates consist of particles that bind to one another for carbon sequestration, nutrient retention and soil aeration. Aggregation is considered a soil-health indicator that depends on fungal and microbial adhesives to bind mineral and organic matter.

Since natural and biochar-containing soils have never been studied in space, scientists don’t know how they react without gravity.

“We don’t know the role that gravity plays in driving soil biogeochemical processes,” Irons said. “We want to fundamentally understand the impact of gravity on fungal and microbial systems, within the context of soil aggregate stability.”

Astronauts won’t need to fumble with loose dirt in plastic containers and risk spilling it: It will be in 36 plastic self-contained vials, for a total of one-tenth of a pound of dirt from three experiments. One set will contain soil from around Ithaca, New York; another set will contain high-performance engineered soil containing biochar from the Ithaca-based company bio365, overseen by John Gaunt; the third set will be from Matthias Rillig, a professor at Freie Universität Berlin, Germany.

“This will be the first time that a soil ecosystem has left the confines of Earth and we study what it does,” said  Johannes Lehmann, professor of soil science in the College of Agriculture and Life Sciences and principal investigator of the project. “This is a bit of a nerdy historic moment, but I’m very excited about it.”

While Irons knows this study likely will be a step to help future long-term space missions take humanity deep into the solar system and beyond, the gravity experiments could lead to better understanding of soil’s unique characteristics.

“Hopefully,” she said, “this experiment in space helps farmers down here on Earth, so that we all can thrive and live sustainably.”

Among Irons’ partners on this experiment are Rhodium Scientific, LLC, in Houston, which provides official NASA and ISS National Laboratory space-flight implementation services; Norfolk Institute, Norfolk, Virginia, a non-profit research group that supports research in human resiliency on Earth and in space; and bio365, a company that creates engineered soils containing biochar.

Funding for Irons’ fellowship was provided by the National Science Foundation and a special fund set up by Norfolk Institute and with contributions from bio365, Deep Space Ecology, Inc., Rhodium Scientific and the Zwillenberg-Tietz Foundation.

NASA flight allocation and ISS use was provided by the ISS National Laboratory ­– Center for the Advancement of Science in Space.

The commercial resupply mission to deliver food, supplies, equipment – and soil – to the International Space Station will lift off on Sept. 29 at 10:27 p.m. EDT from the Mid-Atlantic Regional Spaceport at NASA’s Wallops Flight Facility, Wallops Island, Virginia, according to NASA.

The rocket should be visible just after launch along the East Coast; NASA has provided a visibility map.

Live coverage of the Sept. 29 mission countdown is scheduled to begin at approximately 5:30 p.m. EDT on the NASA Wallops Ustream site. Launch coverage on NASA-TV will begin at 10 p.m. EDT.

Header image: The International Space Station in a 2018 portrait. Photo by NASA, provided
This article also appeared in the Cornell Chronicle.
 

Keep Exploring

A female and male student work with a male teacher in a laboratory classroom holding vials.

News

Researchers in the College of Agriculture and Life Sciences have created an “extension without penalty” system that features two assignment deadlines – an “ideal” and an EWP – and charted how the penalty-free extensions were used by students.

  • Neurobiology and Behavior
  • Biology
A mosquito up close.

News

Eating flours, burgers and fitness bars made from crickets, mealworms or black soldier fly larvae could help feed a growing global population sustainably, but it might hit resistance from those who follow halal or kosher regulations.

  • Food Science
  • Health + Nutrition
  • Environment