SCV0897-2 - PLANT ENVIRONMENTAL PHYSIOLOGY

The lessons will cover the following topics: General definition of stress and common strategies of avoidance, tolerance, resilience, and resistance. Oxidative stress. Reactive oxygen species: chemistry, sources of ROS in plant cells, antioxidant systems. Water and salt stress. Molecular, cellular, and organismic damage by water deficiency. Molecular, physiological, and anatomical mechanisms of resistance and adaptation to drought. Flooding and submersion: molecular, cellular, and organismic damage. Fermentations and cytoplasm acidification. Adaptive, avoidance, and tolerance responses to hypoxia and anoxia. Physiological strategies of salt resistance and tolerance. Osmoregulation. Regulation mechanisms of NaCl absorption and accumulation in plants. Heat stress. Cold and freezing stress. Cellular damage and adaptive responses to cold. Osmoregulators and cryoprotectants. Protection mechanisms of the photosynthetic apparatus. Cellular damage and adaptive responses to high temperatures. Heat shock proteins and factors in stress. Secondary metabolites and their functions in thermoprotection. Light stress. Shade plants: physiological adaptation mechanisms to low light. Adaptive responses of plants under vegetative cover. High light intensity stress. Sun plants: structural and functional characteristics underlying adaptation and tolerance. Photosynthetic ROS production and photoinhibition. Molecular mechanisms of photoprotection: excess energy dissipation. Violaxanthin cycle, state transition, cyclic electron transport, water-water cycle, chlororespiration. Damage to PSII and repair. Anthropogenic pollution stress. Soil, water, and atmospheric pollutants. Characteristics, toxicity, and mechanisms of tolerance and resistance. Use of bioindicators for environmental quality. Detoxification systems and phytoremediation. Biotic stress: plant-pathogen interaction. Constitutive defense. Innate immunity in plants: PAMP, DAMP, and basal immunity. Secondary metabolites in defense mechanisms. Effectors and R genes. Oxidative burst. Hypersensitive response. Systemic acquired resistance (SAR). Salicylic acid and jasmonic acid. Intracellular and long-distance signaling. Laboratory exercises will allow learning of some techniques to evaluate the effects of stress on plants.