π± Introduction
Plant physiology deals with how plants function, including processes like photosynthesis, respiration, transpiration, and transport of nutrients. These processes help plants grow, develop, and survive.
βοΈ Photosynthesis β The Life Process of Plants
π Definition: The process by which green plants make their own food using sunlight, carbon dioxide, and water.
π’ Equation:
\text{6CO}_2 + \text{6H}_2O + \text{Light Energy} \rightarrow \text{C}_6\text{H}_{12}\text{O}_6 + \text{6O}_2
π Steps of Photosynthesis:
1οΈβ£ Light Reaction (in Grana of chloroplast) β Uses sunlight to split water (photolysis) and release oxygen.
2οΈβ£ Dark Reaction (in Stroma of chloroplast) β Uses ATP and NADPH to convert COβ into glucose (Calvin Cycle).
π Key Concept: Chlorophyll absorbs light, and stomata regulate gas exchange.
π¬οΈ Respiration in Plants
π Definition: The process of breaking down glucose to release energy (ATP).
Types of Respiration:
- Aerobic Respiration (with oxygen) β Produces more energy (ATP).
- Equation:
\text{C}_6\text{H}_{12}\text{O}_6 + 6O_2 \rightarrow 6CO_2 + 6H_2O + \text{Energy (ATP)}
π Key Concept: Plants respire day and night, but photosynthesis occurs only in the presence of sunlight.
π¦ Transpiration β Water Loss in Plants
π Definition: The process by which plants lose water vapour through stomata.
Types of Transpiration:
- Stomatal Transpiration β Through stomata (90%).
- Cuticular Transpiration β Through waxy cuticle.
- Lenticular Transpiration β Through lenticels in bark.
π Key Concept: Transpiration creates a pulling force (transpiration pull) that helps water move up the plant.
π Transport in Plants
π Function: Movement of water, minerals, and food throughout the plant.
πΉ Xylem β Water Transport
- Moves water and minerals from roots to leaves.
- Works by capillary action, root pressure, and transpiration pull.
πΉ Phloem β Food Transport
- Moves food (sugar, nutrients) from leaves to other parts (translocation).
- Uses active transport (energy required).
π Key Concept: Xylem moves only upward, while phloem moves both up and down.
π§ͺ Plant Hormones β Growth Regulators
π Function: Control growth, development, and responses to stimuli.
Types of Plant Hormones:
- Auxins β Promote cell elongation (root and stem growth).
- Gibberellins β Help in stem elongation, flowering, seed germination.
- Cytokinins β Promote cell division and delay aging in leaves.
- Abscisic Acid (ABA) β Inhibits growth, causes leaf fall.
- Ethylene β Helps in fruit ripening.
π Key Concept: Auxins, gibberellins, and cytokinins promote growth, while ABA and ethylene slow it down.
π± Tropisms β Plant Movements
Plants respond to stimuli like light, gravity, water, and touch.
Types of Tropisms:
- Phototropism β Growth towards light (shoots grow toward light).
- Geotropism β Growth in response to gravity (roots grow downward).
- Hydrotropism β Growth towards water (roots move toward moisture).
- Thigmotropism β Growth in response to touch (climbing plants).
π Key Concept: Positive tropism β growth toward stimulus; Negative tropism β growth away from stimulus.
π‘ Key Points to Remember
β
Photosynthesis provides food and oxygen.
β
Respiration occurs all the time, while photosynthesis happens only in daylight.
β
Transpiration helps in water movement and cooling.
β
Xylem carries water; phloem transports food.
β
Plant hormones regulate growth and responses.
β
Tropisms help plants respond to environmental changes.