Menu

02 Jul 2013: Drought Tolerance in Plants
Boosted by New Synthetic Chemical

Scientists have identified a chemical that helps plants better tolerate drought conditions, a discovery

Click to enlarge
Drought tolerance crops quinabactin

Cutler Lab/UC Riverside
Soybean plant, right, treated with quinabactin
they say could help boost crop production as extreme weather conditions become more common. After testing thousands of different molecules, researchers at the University of California, Riverside found and named a chemical, quinabactin, that caused the pores, or stomata, in Arabidopsis plants to close firmly, thus preventing water loss. The action is similar to the way a naturally occurring stress hormone, known as abscisic acid (ABA), performs in drought-tolerant plant varieties. While it was previously known that ABA triggers the closing of stomata pores during dry periods, the hormone is far too expensive to apply in agricultural fields, scientists say. Writing in the Proceedings of the National Academy of Sciences, the researchers report that the synthetic chemical mimics the effects of ABA but is much simpler chemically and easier and cheaper to produce. “If you can control the receptors the way ABA does, then you have a way to control water loss and drought-tolerance,” said Sean Cutler, a plant cell biologist and lead author of the study.


SEARCH


Donate to Yale Environment 360


ABOUT

Menu

SUPPORT E360

Menu

TOPICS

Menu

DEPARTMENTS

Menu

HOME PAGE

Menu