Litcius/Paper detail

Soybean photosynthetic and biomass responses to carbon dioxide concentrations ranging from pre-industrial to the distant future

David W. Drag, Rebecca Slattery, Matthew H. Siebers, Evan H. DeLucia, Donald R. Ort, Carl J. Bernacchi

2020Journal of Experimental Botany31 citationsDOIOpen Access PDF

Abstract

Increasing atmospheric carbon dioxide concentration ([CO2]) directly impacts C3 plant photosynthesis and productivity, and the rate at which [CO2] is increasing is greater than initially predicted by worst-case scenario climate models. Thus, it is increasingly important to assess the physiological responses of C3 plants, especially those that serve as important crops, to [CO2] beyond the mid-range levels used in traditional experiments. Here, we grew the C3 crop soybean (Glycine max) at eight different [CO2] levels spanning subambient (340 ppm) to the highest level thought plausible (~2000 ppm) in chambers for 5 weeks. Physiological development was delayed and plant height and total leaf area increased at [CO2] levels higher than ambient conditions, with very little difference in these parameters among the elevated [CO2] treatments >900 ppm. Daily photosynthesis initially increased with rising [CO2] but began to level off at ~1000 ppm CO2. Similar results occurred in biomass accumulation. Thus, as [CO2] continues to match or exceed the worst-case emission scenarios, these results indicate that carbon gain, growth, and potentially yield increases will diminish, thereby ultimately constraining the positive impact that continuing increases in atmospheric [CO2] could have on crop productivity and global terrestrial carbon sinks.

Topics & Concepts

PhotosynthesisCarbon dioxideCarbon dioxide in Earth's atmosphereBiomass (ecology)Environmental scienceProductivityAgronomyCarbon fibersCarbon sequestrationCropCarbon cycleYield (engineering)Carbon sinkClimate changeEcosystemBiologyBotanyEcologyMathematicsMetallurgyEconomicsMaterials scienceMacroeconomicsAlgorithmComposite numberPlant responses to elevated CO2Atmospheric chemistry and aerosolsAtmospheric Ozone and Climate