Physiological response of barley seedlings to salinity and artemisinin combined stresses under freeze-thaw environment

Zhang, Wei; Bao, Guozhang; Tang, Wenyi; Dai, Gejun; Xiao, Jing; Liu, Jiapeng; Wang, Zhao; Xi, Jinghui

Physiological response of barley seedlings to salinity and artemisinin combined stresses under freeze-thaw environment

2022

In the Qinghai-Tibet Plateau, both the large daily temperature difference and soil salinization make plants susceptible to abiotic stresses such as freeze-thaw and salinity. Meanwhile, crops in this area can be affected by artemisinin, an antimalarial secondary metabolite produced in Artemisia. Under freeze-thaw and salinity stresses, artemisinin was induced as an allelopathy stress factor to explore the physiological response of highland barley, including the relative electrical conductivity (RC), soluble protein (SP) content, malondialdehyde (MDA) content, antioxidant enzyme activity, and water use efficiency (WUE). Compared with the control group, the contents of RC and MDA in seedling leaves under stress were significantly increased by 24.74–402.37% and 20.18–77.95%, indicating that cell membrane permeability was greatly damaged, and WUE was significantly decreased by 15.77–238.59%. The activity of enzymes increased under single stress and decreased under combined stress. Salinity, artemisinin, and freeze-thaw stress show a synergistic relationship; that is, compound stresses were more serious than single stress. In summary, the results of this study revealed the physiological and ecological responses of barley seedlings under different habitat stresses and the interactions among different stress factors.

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