Heat priming improved heat tolerance of photosynthesis, enhanced terpenoid and benzenoid emission and phenolics accumulation in Achillea millefolium
The mechanism of heat priming, triggering alteration of secondary metabolite pathway fluxes and pools to enhance heat tolerance is not well understood. Achillea millefolium is an important medicinal herbal plant, rich in terpenoids and phenolics. In this study, the potential of heat priming treatmen...
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Veröffentlicht in: | Plant, cell and environment cell and environment, 2021-07, Vol.44 (7), p.2365-2385 |
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Sprache: | eng |
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Zusammenfassung: | The mechanism of heat priming, triggering alteration of secondary metabolite pathway fluxes and pools to enhance heat tolerance is not well understood. Achillea millefolium is an important medicinal herbal plant, rich in terpenoids and phenolics. In this study, the potential of heat priming treatment (35°C for 1 hr) to enhance tolerance of Achillea plants upon subsequent heat shock (45°C for 5 min) stress was investigated through recovery (0.5–72 hr). The priming treatment itself had minor impacts on photosynthesis, led to moderate increases in the emission of lipoxygenase (LOX) pathway volatiles and isoprene, and to major elicitation of monoterpene and benzaldehyde emissions in late stages of recovery. Upon subsequent heat shock, in primed plants, the rise in LOX and reduction in photosynthetic rate (A) was much less, stomatal conductance (gs) was initially enhanced, terpene emissions were greater and recovery of A occurred faster, indicating enhanced heat tolerance. Additionally, primed plants accumulated higher contents of total phenolics and condensed tannins at the end of the recovery. These results collectively indicate that heat priming improved photosynthesis upon subsequent heat shock by enhancing gs and synthesis of volatile and non‐volatile secondary compounds with antioxidative characteristics, thereby maintaining the integrity of leaf membranes under stress.
Heat priming of Achillea millefolium plants improved tolerance of photosynthesis to subsequent heat shock stress and increased terpene emissions and phenolics accumulation, emphasizing the functional role of secondary metabolites in enhancing resistance to severe heat stress. |
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ISSN: | 0140-7791 1365-3040 |
DOI: | 10.1111/pce.13830 |