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- Drought, salt, and combined stresses in plants: Effects, tolerance . . .
Plants have evolved mechanisms to sense drought and salt stress and rapidly adjust through complex physiological and biometabolic processes at the level of cells, tissues, organs, and the whole plant (Condon, 2020; Leakey et al , 2019; Tardieu et al , 2018)
- How Do Plants Respond to Combined Drought and Salinity Stress?—A . . .
We hypothesized that combined salinity and drought stress adversely affected plants’ physiological mechanisms and growth patterns more prominently than individual stress However, the quantitative assessment of growth reduction in response to combined drought and salinity compared to individual stress is not well-reported
- Insights into the Physiological and Biochemical Impacts of Salt Stress . . .
Here we discuss physiological, biochemical, and cellular modulations in plants in response to salt stress Knowledge of these modulations can assist in assessing salt tolerance potential and the mechanisms underlying salinity tolerance in plants
- Mechanisms of plant response to salt and drought stress and their . . .
Mechanisms used by plant growth-promoting bacteria to ameliorate the effects of these stresses include the production of cytokinin, indoleacetic acid, ACC deaminase, abscisic acid, trehalose, volatile organic compounds, and exopolysaccharides
- Frontiers | Drought and Salinity Stress Responses and Microbe-Induced . . .
In this review, we summarize how drought and salinity extensively affect plant growth in agriculture ecosystems In particular, we focus on the morphological, physiological, biochemical, and metabolic responses of plants to these stresses Moreover, we discuss mechanisms underlying plant-microbe interactions that confer abiotic stress tolerance
- Drought, salt, and temperature stress-induced metabolic . . . - PubMed
In this review, information about metabolic regulation in response to drought, extreme temperature, and salinity stress is summarized and the signalling events involved in mediating stress-induced metabolic changes are presented
- (PDF) Physiological Responses to Drought, Salinity, and Heat Stress in . . .
Considering the importance of the impact that abiotic stresses can have on agriculture in the short term, new strategies are currently being sought and adopted in breeding programs to understand
- Salinity induced physiological and biochemical changes in plants: An . . .
Auxin modulates root development under salt stress by up- and downregulation of genes Seventy-two genes for auxin signal pathways were up- and or downregulated Under salt stress, PIN2 expression, auxin influx carrier, GH3 family, SAUR family, and auxin response factor genes were downregulated
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