By Ty Noel
In a new study conducted by the Realizing Increased Photosynthetic Efficiency (RIPE) project, researchers at the University of Illinois Urbana-Champaign looked back in time at soybean growth and discovered that modern plants have increased mesophyll conductance. This means that carbon dioxide travels faster from inside the leaf to the carbon-fixing enzyme Rubisco and consequently increases photosynthesis without loss of additional water.
This discovery was recently published in Plant, Cell and Environment.
"We thought it would be really intriguing to look at some ancestral cultivars of soybean and compare them to a modern cultivar. This gives us an insight into whether there is natural variability to assist direct breeding selection for increased productivity and water-use efficiency," said Elena Pelech, a postdoctoral researcher in the Long Lab.
"I grew a high-yielding soybean cultivar called LD11 (Glycine max), which was bred here in the Midwest, and then I selected four ancestral cultivars (Glycine soja) discovered from the northeast provinces of China, the assumed area of domestication," explained Pelech.
This study involved growing both modern and ancestral soybeans from seeds in a greenhouse and measuring mesophyll conductance following shade-to-sun transitions using concurrent measurements of gas exchange and carbon isotope discrimination.
"The ancestors of domesticated soybeans are a vining plant that would have escaped much shade compared to today's dense soybean canopies, where shade-to-sun transitions are frequent, and the speed of mesophyll conductance can increase following these transitions affects photosynthesis."
Most published data have focused on steady-state conditions, meaning the plants are kept under a steady light, temperature, or CO2 condition. With the concurrent gas exchange and carbon isotope discrimination method, the researchers were able to change those conditions—specifically the light variable—to measure the dynamic response of the mesophyll conductance.
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