The HIC signalling pathway links CO2 perception to stomatal development

Abstract

Stomatal pores on the leaf surface control both the uptake of CO₂ for photosynthesis and the loss of water during transpiration. Since the industrial revolution, decreases in stomatal numbers in parallel with increases in atmospheric CO₂ concentration have provided evidence of plant responses to changes in CO₂ levels caused by human activity^1,2. This inverse correlation between stomatal density and CO₂ concentration also holds for fossil material from the past 400 million years³ and has provided clues to the causes of global extinction events⁴. Here we report the identification of the Arabidopsis gene HIC (for high carbon dioxide), which encodes a negative regulator of stomatal development that responds to CO₂ concentration. This gene encodes a putative 3-keto acyl coenzyme A synthase—an enzyme involved in the synthesis of very-long-chain fatty acids⁵. Mutant hic plants exhibit up to a 42% increase in stomatal density in response to a doubling of CO₂. Our results identify a gene involved in the signal transduction pathway responsible for controlling stomatal numbers at elevated CO₂.