A new way to grow crops in marginal soils could help feed the world

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The global population is expected to reach 9.7 billion in 2050—but how will we feed all these people? Roughly one-third of the world's arable land suffers from lack of accessible iron, rendering it inhospitable to staple crops like maize and soybeans.

Last year, a Stanford research team led by associate professor of chemical engineering Elizabeth Sattely discovered a genetic adaptation that allows one hardy plant to thrive on these marginal soils. Now, her lab has revealed more about the genetic mechanisms behind this survival trait. Although more studies are needed, Sattely believes this avenue of research will one day enable scientists to splice this adaptive mechanism into the genomes of staple crops, thus opening up more farmland for food production and leading to a new, eco-friendly form of plant genetic engineering. "We may be able to take traits developed through and move them where we need them," Sattely says.

Sattely's lab studies microbiomes—the community of bacteria that live around the roots of plants to help them process nutrients in much the same way gut bacteria help people digest food. Her research in this area focuses on one form of plant indigestion: an inability to absorb enough , which stunts crop growth and depresses yields.

Scientists have long known why such iron deficiencies occur. Many arid regions of the world, including the western United States, have alkaline soils, and this alkalinity acts like a chemical lock that traps iron in the ground. But after studying this problem for years, Sattely's lab discovered how a plant known as Arabidopsis thaliana, a relative of cabbage and mustard, overcomes this iron deficiency thanks to the way its roots interact with alkaline soils. The researchers showed how Arabidopsis roots secrete a molecule in the coumarin family that exerts a chemical pull that helps yank iron into the plant, overcoming the countervailing tug exerted by the alkalinity of the soil.

In their most recent experiments, Sattely's lab found another way that coumarin may help Arabidopsis acclimate to alkaline conditions: The coumarin molecules that the plant's roots secrete into the soil drive off certain bacteria. Since bacteria also need iron to grow, the researchers surmise that the plant is trying to protect its access to a vital mineral. "Arabidopsis has evolved a metabolic pathway that chemically alters the surrounding soil and its root microbiome when its iron supply is limited," said Mathias Voges, the in Sattely's lab who led this new work.

To study all these chemical interactions, which typically occur underground and out of sight, Sattely's lab developed an experimental process based on hydroponics. Voges grew Arabidopsis plants in water that had a chemical and mineral content similar to that of alkaline soils. To this environment he added the various types of bacteria that normally compose the Arabidopsis root microbiome. In the future, researchers can use this hydroponic platform to create different pseudo-soil environments to test how plants react to other adversities—for instance, can plants tune their microbiomes to improve mineral uptake in nitrogen-starved soils?

In the short term, Sattely's lab will try to better understand how the coumarin adaptation works so they can eventually bioengineer wheat, corn or other crops to grow in alkaline soils. Meanwhile, as researchers use the hydroponic technique to discover other microbiome adaptions, she believes this will lead to a second generation of plant genetic engineering. Instead of engineering manmade traits into , scientists will gain the ability to move naturally evolved traits from one plant to another.

"What we envision is a new type of ecologically savvy crop science," Sattely said.


Explore further

Researchers identify genetic variants that help plants grow in low-iron environments, which could improve crop yields

More information: Mathias J. E. E. E. Voges et al. Plant-derived coumarins shape the composition of an Arabidopsis synthetic root microbiome, Proceedings of the National Academy of Sciences (2019). DOI: 10.1073/pnas.1820691116
Citation: A new way to grow crops in marginal soils could help feed the world (2019, July 9) retrieved 17 July 2019 from https://phys.org/news/2019-07-crops-marginal-soils-world.html
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Jul 09, 2019
the world is being fed now. any hunger is political, not a lack of foodstuffs.

Jul 09, 2019
I warned my kids back in the last century that 2050 was the year the world's population would require more food than the world could grow. The warning was mostly because hungry people go to war, win or lose, war is better than starving.
I was wrong, everyone is going to war much earlier than supposed. It does make sense not to wait until the last minute.
The climate is destroying cropland almost as fast as man himself, a double whammy led by the good ol' USA.
Damn.

Jul 09, 2019
Coumarin is toxic to humans, and it's banned by the FDA.

You don't want to genetically engineer plants to produce it.

Jul 09, 2019
I warned my kids back in the last century that 2050 was the year the world's population would require more food than the world could grow. ...
The climate is destroying cropland almost as fast as man himself,


Things are better than ever before in human history.
Population predictions now say world population will top out around 12 billion and begin a decline. Because as people continue to do better, they have less kids. From Beverly Hills to Lagos Nigeria.

You are simply a loser, wishing eveyone loses.

And crops are doing better than ever due to increased CO2, you dope.


Population predictions now say world population will top out around 12 billion and begin a decline.

You realise that only once per decade nations (if they can afford it) make a population census. The next one around 2020. So the recent downwards "correction" of UN guestimates based on false assumptions for the past 3 years will soon be exposed as what it is: voodoo.

Jul 13, 2019
I warned my kids back in the last century that 2050 was the year the world's population would require more food than the world could grow. The warning was mostly because hungry people go to war, win or lose, war is better than starving.
I was wrong, everyone is going to war much earlier than supposed. It does make sense not to wait until the last minute.
The climate is destroying cropland almost as fast as man himself, a double whammy led by the good ol' USA.
Damn.

An ignorant jackass brays.
You believe that human population is a problem, yet you had children.
Oh wait... the problem is others and not you.

You believe that human population is a problem, yet you had children.
Oh wait... the problem is others and not you.


Are you suggesting that everyone should have zero kids, thus mankind dying out? Rational is to have that many children that things reach a balance on our planet. Anyone creating a 4th and further children with his wife is acting grossly irresponsible.

Jul 13, 2019
Coumarin is toxic to humans, and it's banned by the FDA.

You don't want to genetically engineer plants to produce it.
That only makes sense if you're eating the roots. Otherwise, it's just @Eikka who's against every possible response to AGCC.

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