Permanent tissues consist of cells that have lost the ability to divide and have
become specialized.
Simple Tissues: These have a similar structure and function.
o Parenchyma: Basic tissue, involved in storage, photosynthesis, and
secretion.
o Collenchyma: Provides support and flexibility, especially in young
plants.
o Sclerenchyma: Provides mechanical support with thick cell walls (e.g.,
fibers, sclereids).
Complex Tissues: Made up of more than one type of cell.
o Xylem: Conducts water and minerals from roots to other parts of the
plant. It consists of tracheids, vessels, and fibers.
o Phloem: Transports food (mainly sugars) produced by photosynthesis.
It consists of sieve tubes, companion cells, phloem fibers, and phloem
parenchyma.
2. Root Anatomy
Roots anchor the plant in the soil and absorb water and nutrients. The anatomy of
roots varies between monocots and dicots.
Root Structure:
o Root Cap: Protective layer at the tip of the root.
o Epidermis: Outer layer, often with root hairs that absorb water.
o Cortex: Storage of starch and minerals, made of parenchyma cells.
o Endodermis: Innermost layer of cortex, controls the movement of
water into the vascular tissue.
o Vascular Cylinder: Consists of xylem and phloem, responsible for
transporting water, minerals, and food.
In dicots, the vascular tissue is usually in the center, forming a central column. In
monocots, the vascular bundles are scattered throughout.
,3. Stem Anatomy
The stem provides structural support for leaves, flowers, and fruits. It also transports
water, nutrients, and food.
Monocot Stem: Vascular bundles are scattered throughout the stem without
a defined arrangement.
Dicot Stem: Vascular bundles are arranged in a circle.
Structure of a Stem:
Epidermis: Outer layer, often covered with a cuticle to reduce water loss.
Cortex: Between the epidermis and vascular tissue; stores food and provides
support.
Vascular Bundles: Contain xylem and phloem. In monocots, they are
scattered, while in dicots, they are arranged in a circle.
Pith: Central part of the stem, composed of parenchyma cells and stores
food.
In woody plants, secondary growth occurs, forming additional xylem and phloem
(wood).
4. Leaf Anatomy
Leaves are primarily responsible for photosynthesis. Their anatomy allows efficient
gas exchange and light absorption.
Monocot Leaf: Parallel venation, with a single, long leaf blade.
Dicot Leaf: Reticulate venation, with a broader leaf blade.
Structure of a Leaf:
Epidermis: Outer layer, often with a waxy cuticle to prevent water loss.
Mesophyll: The inner layer of the leaf, consisting of:
o Palisade Parenchyma: Contains most chloroplasts for photosynthesis.
o Spongy Parenchyma: Loosely arranged cells for gas exchange.
Vascular Bundles: Xylem and phloem arranged in veins.
Stomata: Small openings on the underside of leaves for gas exchange.
5. Vascular Tissue System
,The vascular system is responsible for the transport of water, nutrients, and food
throughout the plant.
Xylem: Transports water and minerals.
o Tracheids: Long, tapering cells that help in water conduction.
o Vessels: Tubular structures that allow efficient water movement.
o Xylem Fibers: Provide support.
Phloem: Transports sugars and other organic molecules.
o Sieve Tubes: Transport food.
o Companion Cells: Support sieve tubes in function.
o Phloem Fibers: Provide structural support.
6. Secondary Growth
Secondary growth occurs in woody plants and increases the thickness of stems and
roots.
Vascular Cambium: A lateral meristem that produces new xylem and phloem.
o Secondary Xylem: Forms wood.
o Secondary Phloem: Forms part of the bark.
Cork Cambium: Forms the outer protective layer (cork), which replaces the
epidermis in older plants.
7. Anatomy of Flower
Flowers are the reproductive organs of plants.
Parts of a Flower:
o Sepals: Protect the flower bud.
o Petals: Attract pollinators.
o Stamens: Male reproductive organs, consisting of the anther (where
pollen is produced) and filament.
o Carpels: Female reproductive organs, consisting of stigma (receives
pollen), style (connects stigma to ovary), and ovary (contains ovules).
8. Plant Water and Mineral Transport
, Plants have two main systems for transporting water and food: the xylem (for water)
and phloem (for food).
Water Transport:
o Root to Stem: Water is absorbed by root hairs, enters the xylem, and
moves upward through capillary action.
o Transpiration: The process by which water evaporates from leaves,
creating a pull that helps water travel upward.
Mineral Transport: Minerals enter roots from the soil and travel with water
through the xylem to other parts of the plant.
Phloem Translocation: Food moves through the phloem from source (where
it is produced) to sink (where it is used or stored) by the pressure flow
hypothesis.
9. Plant Growth and Development
Growth in plants is influenced by various hormones that control their development.
Auxins: Promote cell elongation and root development.
Gibberellins: Stimulate stem elongation and flowering.
Cytokinins: Promote cell division and delay aging.
Ethylene: Involved in fruit ripening and leaf abscission.
Abscisic Acid: Inhibits growth and helps in stress responses (like drought).
10. Special Types of Tissues and Adaptations
Plants adapt to different environments with modifications in structure.
Hydrophytes: Aquatic plants with adaptations like air spaces for buoyancy
and stomata on the upper surface.
Xerophytes: Plants in dry areas, with adaptations like thick cuticles, reduced
leaves (spines), and deep roots.
Halophytes: Plants in saline environments with adaptations to manage
excess salt.
1. What is a tissue?