4.Elaborate on the form and function of the modified leaves of the plants.

4.Elaborate on the form and function of the modified leaves of the plants.

answer:

Leaves: Morphology, Types & Modification

Plants are an essential part of the ecosystem. Every life on the earth is directly or indirectly dependent on plants. Among the different parts of a plant, the leaf is the most essential.

Primarily, leaves have two functions: photosynthesis and transpiration. In some plants, it takes up the responsibility of reproduction also.

Table of Contents

• Structure
• Types
• Modification
• Function
• Key Points

Let’s learn more about the morphology of leaves, parts of a leaf, different types of leaves and their modifications.

Structure of a Leaf

Leaves are thin, flat organs responsible for photosynthesis in the plants. It develops laterally at the node. It is an important part of the shoot system and it originates from shoot apical meristems.

The structure of a leaf is described below in detail :

Parts of a Leaf

Generally, leaf base, petiole, and lamina, together form the main parts of a  leaf.

• Leaf Base: This is the part where a leaf attaches to the stem. Leaf base has two small leaf-like structure called stipules. In plants like paddy, wheat, and other monocotyledons, this leaf base is wide and masks the stem.
• Petiole: Petiole is the long, thin, stalk that links the leaf blade to the stem.
• Lamina: Also known as leaf blade. It is the green, flat surface of the leaves. It consists of a small branched vein and veinlets. The vein that runs along the middle of the lamina is called midrib. Midrib divides the surface of the lamina into two. These veins and veinlets give rigidity to the leaf blade and help in the transportation of water and other substances.

A leaf diagram representing the parts of a leaf

Read more: Types of Stipules

Venation

Venation is defined as the arrangement of veins and the veinlets in the leaves. Different plants show different types of venation. Generally, there are two types of venation:

• Reticulate venation: In a reticulate venation, the veinlets are randomly arranged and form a complex network of veinlets. Ex: Dicotyledonous plants like a rose plant.

Reticulate venation

• Parallel venation: In a parallel venation, the veinlets run parallel to each other. Ex: In monocotyledons like paddy.

Parallel venation

Types of Leaves

There are two broad categories of leaves – simple and compound, which are further classified into different groups based on their shape, size, their arrangements on the stem,  leaves of flowering and non-flowering plants, and various other physical attributes.

The two different types of leaves found in a plant are:

Simple Leaf

When a single lamina is connected to the main stem by a petiole, the leaf is said to be simple. A simple leaf may be incised to any depth but not down to the midrib or petiole. Eg., Guava leaves

Compound Leaf

A compound leaf is a leaf made up of two or more leaflets.  In a compound leaf, the midrib of the leaf is branched into different leaflets and is connected by a single petiole. For eg., Pea, palm leaves.

Modification Of Leaves

We know leaves are specialised to perform photosynthesis. In addition, they also have other significant roles to play, such as support, storage of food, defence, etc. For each of these functions, they have been modified into different forms.

For example, tendrils of peas, spines of cacti, onion bulb, leaves of insectivorous plants, etc. are different modified leaves. Let us have a detailed look at some of the modification of leaves:

Storage Leaves

The xerophytic plants and plants belonging to the Crassulaceae family have thick and succulent leaves that store water in their tissues. The parenchymatous cells of these leaves have large vacuoles filled with hydrophilic colloid. This modification helps the plant to resist desiccation.

Leaf Tendrils

Leaf tendrils exist in plants with weak stems. The leaves get modified into thread-like structures called tendrils. These tendrils climb a nearby stick or wall and provide support to the plant. For eg., In Lathyrus aphaca, the whole leaf is modified into tendrils. The upper leaflets of Pisum sativum get modified into tendrils.

Leaf Spines

A few plants have their leaves modified into needle-like structures known as spines. The spines act as defensive structures. They also reduce water loss due to transpiration. For eg., in Opuntia, the leaves are modified into spines.

Scale Leaves

These are thin, membranous structures, without stalks, brownish or colourless in appearance. They protect the auxiliary bud present in their axil. Scale leaves in onion are fleshy and thick and store food and water. Casuarina and Asparagus also contain sale leaves

Leaflet Hooks

In some plants, the terminal leaflets of leaf get modified into hook-like structures that help them in climbing. Eg., Bignonia unguiscati.

Leaf Roots

In a few plants, one of the leaves present at the nodes gets modified into adventitious roots which helps them to float over the water surface. Eg., Salvinia

Phyllode

In some plants, the petiole becomes flattened, taking the shape of a leaf and turns green in colour. This is known as phyllode. For eg., Australian Acacia.

Insectivorous Leaves

Few plants require nitrogen for their development. In such plants, the leaves are modified to catch and digest insects. Few of the modifications are mentioned below:

• Leaf Pitcher- In a few plants like Nepenthes, the leaf-lamina is modified into a pitcher-like structure. The insect is digested into the inner walls of the pitcher which secretes a digestive fluid into the pitcher cavity.
• Leaf Bladder- In such plants, the segments of the leaves are modified into bladders. These plants are found in water. The inner wall is provided with digestive glands which helps in digesting the trapped insect. For eg., Utricularia
• In Drosera– The lamina possesses numerous hair with a sticky globule at its tip containing digestive enzymes. The moment an insect sits on the lamina, the hair covers the insect completely.

Functions of Leaves

The leaves perform the following functions:

Photosynthesis

Photosynthesis is the primary function of leaves. They convert carbon dioxide, water, and UV light into glucose through the process of photosynthesis.

Also Refer: Photosynthesis

Transpiration

Transpiration is the removal of excess water from the plants into the atmosphere. This occurs by the opening of stomata present in the leaves.

Guttation

Removal of excess water from the xylem at the edges of the leaves when the stomata are closed is known as guttation.

Storage

Leaves are a site of photosynthesis. Therefore, they store water and nutrients. The succulent and thick leaves particularly adapt to water storage.

Defence

Some leaves are modified into spines to protect them from being damaged or eaten by animals. For eg., Opuntia.

Key Points

• Leaves are found at the nodes of the stem and contain the photosynthetic pigment chlorophyll.
• There are three main parts of a leaf – Leaf base, leaf lamina, and petiole.
• There are two different types of leaves – simples leaves and compound leaves. The other types of leaves include acicular, linear, lanceolate, orbicular, elliptical, oblique, centric cordate, etc.
• They perform the function of photosynthesis and help in the removal of excess water from the aerial parts of the plant.
• They are modified in the form of spines, tendrils, hooks and scales and help them to adapt to various environments.