BMC Plant Biology (Nov 2024)

High temperature perturbs physicochemical parameters and fatty acids composition of safflower (Carthamus tinctorius L.)

  • Afrasyab Rahnama,
  • Farshad Salehi,
  • Moosa Meskarbashee,
  • Khosro Mehdi Khanlou,
  • Mansour Ghorbanpour,
  • Matthew Tom Harrison

DOI
https://doi.org/10.1186/s12870-024-05781-3
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 13

Abstract

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Abstract Future climates will realise increasingly frequent extreme weather events, which will impact on the quantum and quality of crop production. While effects of extreme heat on crop production have been well studied hitherto, there remains a dearth of knowledge pertaining to the impacts of extreme heat on grain quality. As such, our purpose here was to evaluate the effects of terminal heat stress on the physicochemical properties and composition of seed oil of safflower plants. Using two contemporary cultivars with varying genetic tolerance to heat stress (Faraman and Sofeh), we found that exposure to extreme heat reduced grain yield by 53–57%. Four fatty acids (palmitic, stearic, oleic and linoleic acid) comprised 96–99% of total fatty acid methyl esters; relative composition varied in response to heat stress and other environmental conditions. In the first experimental year (2017-18), saturated fatty acids in Sofeh and Faraman cultivars increased by 69% and 18% respectively, while unsaturated fatty acids decreased by 9% and 4%, respectively. In the second experimental year (2018-19), saturated fatty acids increased by 10% in Sofeh and by less than 1% in Farman, while unsaturated fatty acids in both cultivars were not significantly altered. Physicochemical parameters differed across years and cultivars; exposure to high temperature increased chlorophyll and carotenoid content in Sofeh, but decreased the said parameters in Faraman. In 2017-18, effects of heat stress on thiobarbituric acid were variable, but in 2018-19, thiobarbituric acid increased in both cultivars. In all cases, saponification and iodine content increased in response to heat stress. In sum, the fatty acid profile of safflower exposed to terminal heat stress was less affected compared with oil physicochemical parameters, due to greater temperature sensitivity of the latter.

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