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J Exp Bot


Title:Lethal heat stress-dependent volatile emissions from tobacco leaves: what happens beyond the thermal edge?
Author(s):Turan S; Kask K; Kanagendran A; Li S; Anni R; Talts E; Rasulov B; Kannaste A; Niinemets U;
Address:"Institute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Kreutzwaldi, Tartu, Estonia. Estonian Academy of Sciences, Kohtu, Tallinn, Estonia"
Journal Title:J Exp Bot
Year:2019
Volume:70
Issue:18
Page Number:5017 - 5030
DOI: 10.1093/jxb/erz255
ISSN/ISBN:1460-2431 (Electronic) 0022-0957 (Print) 0022-0957 (Linking)
Abstract:"Natural vegetation is predicted to suffer from extreme heat events as a result of global warming. In this study, we focused on the immediate response to heat stress. Photosynthesis and volatile emissions were measured in the leaves of tobacco (Nicotiana tabacum cv. Wisconsin 38) after exposure to heat shock treatments between 46 degrees C and 55 degrees C. Exposure to 46 degrees C decreased photosynthetic carbon assimilation rates (A) by >3-fold. Complete inhibition of A was observed at 49 degrees C, together with a simultaneous decrease in the maximum quantum efficiency of PSII, measured as the Fv/Fm ratio. A large increase in volatile emissions was observed at 52 degrees C. Heat stress resulted in only minor effects on the emission of monoterpenes, but volatiles associated with membrane damage such as propanal and (E)-2-hexenal+(Z)-3-hexenol were greatly increased. Heat induced changes in the levels of methanol and 2-ethylfuran that are indicative of modification of cell walls. In addition, the oxidation of metabolites in the volatile profiles was strongly enhanced, suggesting the acceleration of oxidative processes at high temperatures that are beyond the thermal tolerance limit"
Keywords:Heat-Shock Response/*physiology Hot Temperature/adverse effects Photosynthesis Plant Leaves/physiology Tobacco/*physiology Volatile Organic Compounds/*metabolism Chlorophyll fluorescence heat stress isoprene lipoxygenase pathway methacrolein methanol mono;
Notes:"MedlineTuran, Satpal Kask, Kaia Kanagendran, Arooran Li, Shuai Anni, Rinaldo Talts, Eero Rasulov, Bahtijor Kannaste, Astrid Niinemets, Ulo eng 322603/ERC_/European Research Council/International Research Support, Non-U.S. Gov't England 2019/07/11 J Exp Bot. 2019 Sep 24; 70(18):5017-5030. doi: 10.1093/jxb/erz255"

 
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