Litcius/Paper detail

Bioenergy sorghum maintains photosynthetic capacity in elevated ozone concentrations

Shuai Li, Christopher A. Moller, Noah G. Mitchell, DoKyoung Lee, Elizabeth A. Ainsworth

2020Plant Cell & Environment26 citationsDOIOpen Access PDF

Abstract

Abstract Elevated tropospheric ozone concentration (O 3 ) significantly reduces photosynthesis and productivity in several C 4 crops including maize, switchgrass and sugarcane. However, it is unknown how O 3 affects plant growth, development and productivity in sorghum ( Sorghum bicolor L.), an emerging C 4 bioenergy crop. Here, we investigated the effects of elevated O 3 on photosynthesis, biomass and nutrient composition of a number of sorghum genotypes over two seasons in the field using free‐air concentration enrichment (FACE), and in growth chambers. We also tested if elevated O 3 altered the relationship between stomatal conductance and environmental conditions using two common stomatal conductance models. Sorghum genotypes showed significant variability in plant functional traits, including photosynthetic capacity, leaf N content and specific leaf area, but responded similarly to O 3 . At the FACE experiment, elevated O 3 did not alter net CO 2 assimilation ( A ), stomatal conductance ( g s ), stomatal sensitivity to the environment, chlorophyll fluorescence and plant biomass, but led to reductions in the maximum carboxylation capacity of phosphoenolpyruvate and increased stomatal limitation to A in both years. These findings suggest that bioenergy sorghum is tolerant to O 3 and could be used to enhance biomass productivity in O 3 polluted regions.

Topics & Concepts

Stomatal conductanceSorghumPhotosynthesisAgronomyBiomass (ecology)BioenergyPhotosynthetic capacityTranspirationBiologyBotanyBiofuelEcologyPlant responses to elevated CO2Atmospheric chemistry and aerosolsPlant Water Relations and Carbon Dynamics