Can improved canopy light transmission ameliorate loss of photosynthetic efficiency in the shade An investigation of natural variation in Sorghum bicolor

Nikhil S. Jaikumar, Samantha S. Stutz, Samuel B. Fernandes, Andrew D.B. Leakey, Carl J. Bernacchi, Patrick J. Brown, Stephen P. Long

Research output: Contribution to journalArticlepeer-review

Abstract

Previous studies have found that maximum quantum yield of CO2 assimilation (φCO2,max,app) declines in lower canopies of maize and miscanthus, a maladaptive response to self-shading. These observations were limited to single genotypes, leaving it unclear whether the maladaptive shade response is a general property of this C4 grass tribe, the Andropogoneae. We explored the generality of this maladaptation by testing the hypothesis that erect leaf forms (erectophiles), which allow more light into the lower canopy, suffer less of a decline in photosynthetic efficiency than drooping leaf (planophile) forms. On average, φCO2,max,app declined 27% in lower canopy leaves across 35 accessions, but the decline was over twice as great in planophiles than in erectophiles. The loss of photosynthetic efficiency involved a decoupling between electron transport and assimilation. This was not associated with increased bundle sheath leakage, based on 13C measurements. In both planophiles and erectophiles, shaded leaves had greater leaf absorptivity and lower activities of key C4 enzymes than sun leaves. The erectophile form is considered more productive because it allows a more effective distribution of light through the canopy to support photosynthesis. We show that in sorghum, it provides a second benefit, maintenance of higher φCO2,max,app to support efficient use of that light resource.

Original languageEnglish (US)
Pages (from-to)4965-4980
Number of pages16
JournalJournal of experimental botany
Volume72
Issue number13
DOIs
StatePublished - Jun 22 2021

Keywords

  • Cphotosynthesis
  • crop canopy architecture
  • food security
  • leaf form
  • quantum efficiency
  • stomata
  • water use efficiency

ASJC Scopus subject areas

  • Physiology
  • Plant Science

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