The discovery of C₄ photosynthesis at a Brisbane sugar refinery 50 years ago spawned a whole new field of plant biology and is now well on the way to feeding the world.

Three billion people rely on rice for survival, but C₄ plants like maize and sugarcane grow faster, have higher yields, and are more drought-tolerant.

“C₄ plants photosynthesise faster thanks to a biochemical ‘supercharger’ that concentrates CO₂ in specialised structures in their leaves,” says Professor Bob Furbank from the ARC Centre of Excellence for Translational Photosynthesis.

“If we can modify rice to use the C₄ pathway, instead of C₃, we can improve rice production and double its water efficiency.”

In 2015, the first rice plant to contain the five genes necessary for C₄ photosynthesis was created at the International Rice Research Institute in the Philippines.

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The discovery of C₄ photosynthesis by Hal Hatch and Roger Slack 50 years ago could soon help feed the world.

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To speed up the evolution of rice from C₃ to its C₄ form, the researchers take genes from maize, splice them into the rice genome, then cross breed the rice until they get the combinations required to trigger the C₄ pathway.

It’s a task that involves 12 institutions in eight countries, including Bob, who is a plant biologist, and his colleague Professor Susanne von Caemmerer, who has a background in mathematics.

“What I love about this project is that it has unified researchers from different fields for a common, and very worthy cause,” says Susanne.

“It’s also grabbed the attention of the Bill and Melinda Gates Foundation, who’ve just renewed our funding for the third time.”

For more information:
Natalia Bateman,
ARC Centre of Excellence for Translational Photosynthesis
natalia.bateman@anu.edu.au

Banner image credit : International Rice Research Institute