Dynamic responses of gas exchange and photochemistry to heat interference during drought in wheat and sorghum
Journal Publication ResearchOnline@JCUAbstract
Drought and heat stress significantly affect crop growth and productivity worldwide. It is unknown how heat interference during drought affects physiological processes dynamically in crops. Here we focussed on gas exchange and photochemistry in wheat and sorghum in response to simulated heat interference via +15 degrees C of temperature during similar to 2 week drought and re-watering. Results showed that drought decreased net photosynthesis (A(net)), stomatal conductance (g(s)), maximum velocity of ribulose-1, 5-bisphosphate carboxylase/oxygenase carboxylation (V-cmax) and electron transport rate (J) in both wheat and sorghum. Heat interference did not further reduce A(net) or g(s). Drought increased non-photochemical quenching (phi(npq)), whereas heat interference decreased phi(npq). The delta C-13 of leaf, stem and roots was higher in drought-treated wheat but lower in drought-treated sorghum. The results suggest that (1) even under drought conditions wheat and sorghum increased or maintained g(s) for transpirational cooling to alleviate negative effects by heat interference; (2) non-photochemical quenching responded differently to drought and heat stress; (3) wheat and sorghum responded in opposing patterns in delta C-13. These findings point to the importance of stomatal regulation under heat crossed with drought stress and could provide useful information on development of better strategies to secure crop production for future climate change.
Journal
Functional Plant Biology
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N/A
Volume
47
ISBN/ISSN
1445-4416
Edition
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Issue
7
Pages Count
17
Location
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Publisher
CSIRO Publishing
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EISSN
N/A
DOI
10.1071/FP19242