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TRANSPORTATION IN PLANTS AND CIRCULATION IN ANIMALS Class X

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TRANSPORTATION IN PLANTS AND CIRCULATION IN ANIMALS 07/23/2021
GENERAL INTRODUCTION • Multicellular organisms possess millions of cells in their body. • Every cell needs a constant supply of essential substances like nutrients and oxygen to maintain life and survival. • Food is the only source of energy and every cell gets its energy by the breakdown of glucose. The cells utilise this energy and govern various vital activities of life. Plants Animals Fungus
GENERAL INTRODUCTION  Water absorbed by the roots have to reach entire plant and the food synthesised by the leaves have to be distributed to all the parts of the plant.  To understand - the anatomy of the plants.  Water and mineral salts absorbed by the roots reach all parts of the plant through the xylem.  The food synthesized by the leaves are translocated to all parts of the plant through the phloem.  The bulk movement of substances through the vascular tissue is called Translocation.
07/23/2021
GENERAL INTRODUCTION ‘Transport’ means to carry things from one place to another. (Have you ever wondered how in animals the useful substances are transported to other cells and toxic substances are removed? ) In larger organisms transport of nutrients, salts, oxygen, hormones and waste products around the body are performed by the ‘Circulatory system’. The circulatory system consists of the circulating fluids, the blood and lymph and the heart and blood vessels which form the collecting and transporting system.
Means of Transort in Plants Means of Transport in Plants 14.1 The transport of materials in and out of the cells is carried out by diffusion and active transport in plants.
14.1.1 Diffusion The movement of solid liquid and gaseous molecules from a region of higher concentration to a region of their lower concentration without the utilization of energy is called Diffusion. This is a passive process.
14.1.2 Active Transport Active transport utilizes energy to pump molecules against a concentration gradient. Active transport is carried out by membrane bound proteins. These proteins use energy to carry substances across the cell membrane hence they are often referred to as pumps. These pumps can transport substances from a low concentration to a high concentration (‘uphill’ transport).
14.1.3 Osmosis Osmosis is the movement of solvent or water molecules from the region of higher concentration to the region of lower concentration through a semi-permeable membrane. This process is carried out till an equilibrium is reached. Osmosis is the passive movement of water or any other solvent molecules.
Some Examples of Osmosis from real Life
Plasmolysis It occurs when a living plant cell is placed in a hypertonic solution water molecule moves out of the cell and resulting in the shrinkage of protoplasm away from the cell wall.
Imbibition Imbibition is a type of diffusion in which a solid plant material absorbs water and gets swelled up. eg. absorption of water by dry seeds and grapes. If it were not for imbibition, seedlings would not have been able to emerge out of the soil.
14.2 Root Hair-Water Absorbing Unit There are millions of root hairs on the tip of the root which absorb water and minerals by diffusion. Root hairs are thin walled, slender extension of epidermal cell that increase the surface area of absorption.
14.3 Pathway of Water Absorbed by Roots Once the water enters the root hairs, the concentration of water molecules in the root hair cells become more than that of the cortex. Thus water from the root hair moves to the cortical cells by osmosis and then reaches the xylem. From there the water is transported to the stem and leaves.
14.4 Types of Movement of Water into the Root Cells Once water is absorbed by the root hairs, it can move deeper into root layers by two distinct pathways: • Apoplast pathway • Symplast pathway
14.4.1 Apoplast Pathway The apoplastic movement of water occurs exclusively through the intercellular spaces and the walls of the cells. Apoplastic movement does not involve crossing the cell membrane. This movement is dependent on the gradient.
14.4.2 Symplast Pathway In this method, water molecules move to the adjacent cells, through the plasma membrane, cytoplasm and plasmodesmata. This method of transport is slow as water moves through plasma membrane. It is in accordance to the concentration gradient.
• Plants do not have interstitial fluid and circulatory system. • But they need to move various substances (water, minerals, organic nutrients, growth regulators etc.) over long distances. TRANSPORT IN PLANTS
 Unidirectional transport: E.g. Transport of water and minerals in xylem (from roots to stems, leaves etc.).  Multidirectional transport: E.g. Transport of photosynthates (organic compounds), transport of mineral nutrients etc. TRANSPORT IN PLANTS Direction of transport Sometimes, plant hormones and other chemical stimuli are transported in a polarized or unidirectional manner from where they are synthesized to other parts.
PLANT-WATER RELATIONS

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TRANSPORTATION IN PLANTS AND CIRCULATION IN ANIMALS.ppt

  • 2. GENERAL INTRODUCTION • Multicellular organisms possess millions of cells in their body. • Every cell needs a constant supply of essential substances like nutrients and oxygen to maintain life and survival. • Food is the only source of energy and every cell gets its energy by the breakdown of glucose. The cells utilise this energy and govern various vital activities of life. Plants Animals Fungus
  • 3. GENERAL INTRODUCTION  Water absorbed by the roots have to reach entire plant and the food synthesised by the leaves have to be distributed to all the parts of the plant.  To understand - the anatomy of the plants.  Water and mineral salts absorbed by the roots reach all parts of the plant through the xylem.  The food synthesized by the leaves are translocated to all parts of the plant through the phloem.  The bulk movement of substances through the vascular tissue is called Translocation.
  • 5. GENERAL INTRODUCTION ‘Transport’ means to carry things from one place to another. (Have you ever wondered how in animals the useful substances are transported to other cells and toxic substances are removed? ) In larger organisms transport of nutrients, salts, oxygen, hormones and waste products around the body are performed by the ‘Circulatory system’. The circulatory system consists of the circulating fluids, the blood and lymph and the heart and blood vessels which form the collecting and transporting system.
  • 6. Means of Transort in Plants Means of Transport in Plants 14.1 The transport of materials in and out of the cells is carried out by diffusion and active transport in plants.
  • 7. 14.1.1 Diffusion The movement of solid liquid and gaseous molecules from a region of higher concentration to a region of their lower concentration without the utilization of energy is called Diffusion. This is a passive process.
  • 8. 14.1.2 Active Transport Active transport utilizes energy to pump molecules against a concentration gradient. Active transport is carried out by membrane bound proteins. These proteins use energy to carry substances across the cell membrane hence they are often referred to as pumps. These pumps can transport substances from a low concentration to a high concentration (‘uphill’ transport).
  • 9. 14.1.3 Osmosis Osmosis is the movement of solvent or water molecules from the region of higher concentration to the region of lower concentration through a semi-permeable membrane. This process is carried out till an equilibrium is reached. Osmosis is the passive movement of water or any other solvent molecules.
  • 10. Some Examples of Osmosis from real Life
  • 11. Plasmolysis It occurs when a living plant cell is placed in a hypertonic solution water molecule moves out of the cell and resulting in the shrinkage of protoplasm away from the cell wall.
  • 12. Imbibition Imbibition is a type of diffusion in which a solid plant material absorbs water and gets swelled up. eg. absorption of water by dry seeds and grapes. If it were not for imbibition, seedlings would not have been able to emerge out of the soil.
  • 13. 14.2 Root Hair-Water Absorbing Unit There are millions of root hairs on the tip of the root which absorb water and minerals by diffusion. Root hairs are thin walled, slender extension of epidermal cell that increase the surface area of absorption.
  • 14. 14.3 Pathway of Water Absorbed by Roots Once the water enters the root hairs, the concentration of water molecules in the root hair cells become more than that of the cortex. Thus water from the root hair moves to the cortical cells by osmosis and then reaches the xylem. From there the water is transported to the stem and leaves.
  • 15. 14.4 Types of Movement of Water into the Root Cells Once water is absorbed by the root hairs, it can move deeper into root layers by two distinct pathways: • Apoplast pathway • Symplast pathway
  • 16. 14.4.1 Apoplast Pathway The apoplastic movement of water occurs exclusively through the intercellular spaces and the walls of the cells. Apoplastic movement does not involve crossing the cell membrane. This movement is dependent on the gradient.
  • 17. 14.4.2 Symplast Pathway In this method, water molecules move to the adjacent cells, through the plasma membrane, cytoplasm and plasmodesmata. This method of transport is slow as water moves through plasma membrane. It is in accordance to the concentration gradient.
  • 18.
  • 19. • Plants do not have interstitial fluid and circulatory system. • But they need to move various substances (water, minerals, organic nutrients, growth regulators etc.) over long distances. TRANSPORT IN PLANTS
  • 20.  Unidirectional transport: E.g. Transport of water and minerals in xylem (from roots to stems, leaves etc.).  Multidirectional transport: E.g. Transport of photosynthates (organic compounds), transport of mineral nutrients etc. TRANSPORT IN PLANTS Direction of transport Sometimes, plant hormones and other chemical stimuli are transported in a polarized or unidirectional manner from where they are synthesized to other parts.