Table of contents | |
What is Flower? | |
About Four Whorls | |
Classification of Flower | |
Parts of Flower and Functions | |
Placentation |
Flowers are the reproductive structures found in angiosperms, which are the largest group of plants on Earth. Flowers play a vital role in the continuation of species. They also have cultural and economic significance. Flowers are used in various industries, including horticulture, perfume production, food and beverage industries, and traditional medicine.
A Flower is the reproductive organ of a flowering plant (angiosperm). They are responsible for the production of seeds, which eventually develop into new plants.
Whorls of Flower
Parts of Flower
Flowers can be classified based on their symmetry, which refers to the arrangement of floral organs or structures in relation to a central axis or plane.
The classification is primarily determined by the relative position, attachment, and fusion of the floral organs on the receptacle.
On the basis of floral appendages, flowers can be classified into different types. Floral appendages are the structures attached to the receptacle or thalamus of the flower, including sepals, petals, stamens, and carpels.
A Flower may be trimerous, tetramerous or pentamerous when the floral appendages are in multiple of 3, 4 or 5, respectively. Flowers with bracts-reduced leaf found at the base of the pedicel are called bracteate and those without bracts, ebracteate.
The calyx is a part of the flower and represents the outermost whorl of floral organs. It is typically green in color and consists of individual leaf-like structures called sepals. Sepals are usually green because they contain chlorophyll and resemble the leaves of the plant.
(a) Polysepalous Calyx: In this type, the sepals are separate and distinct from each other, and they are not fused or joined. Each sepal is free and can be easily distinguished.
Examples: roses, lilies, and sunflowers
Polysepalous Calyx
(b) Gamosepalous Calyx: In this type, the sepals are fused or joined together to some extent. They may be partially fused, forming a tube-like structure, or completely fused, forming a cup-like structure.
Examples: bellflowers (Campanula) and morning glories (Ipomoea).
Gamosepalous Calyx
Functions of Calyx:
1. Protection: The calyx protects the flower in its bud stage. Sepals enclose and protect the developing flower bud, shielding it from physical damage, desiccation, and pests.
2. Support: The calyx provides structural support to the flower. It helps to hold the petals, stamens, and pistils in their proper position within the flower.
The corolla is one of the main parts of a flower, located inside the calyx. It represents the second whorl of floral organs and is often the most visually attractive part of the flower. The corolla is composed of individual units called petals.
(i) Types of corolla
a: Polypetalous Corolla: In this type, the petals of the corolla are separate and distinct from each other. They are not fused or joined and can be easily distinguished.
Examples: Roses, Buttercups, and Lilies.
b: Gamopetalous Corolla: In this type, the petals of the corolla are fused or joined together to some extent. They may be partially fused, forming a tube-like structure, or completely fused, forming a cup-like or funnel-like structure.
Example: flowers of the pea family (Fabaceae)
(ii) Aestivation
Aestivation refers to the pattern in which the sepals or petals of a flower are arranged in relation to each other while they are in the bud stage.
There are several types of Aestivation, including the following:
a) Valvate Aestivation: In valvate aestivation, the sepals or petals in the bud are arranged in overlapping, but not touching, edges. Each sepal or petal occupies a position next to two others.
Example: Calotropis
b) Twisted Aestivation: In twisted aestivation, the sepals or petals in the bud are arranged in a twisted or spiral manner. Each sepal or petal overlaps with two others alternately, forming a spiral pattern.
Example: China rose, lady finger
c) Imbricate Aestivation: If the margins of sepals or petals overlap one another but not inany particular direction.
Example: Cassia and gulmohur
d) Vexillary or Papilionaceous Aestivation: In this type the largest petal overlaps the two lateral petals (wings) which in turn overlap the two smallest anterior petals.
Example: Pea , Bean flowers
1. Attraction: The corolla is responsible for attracting pollinators, such as insects or birds, to the flower. Petals often have vibrant colors, patterns, and sometimes fragrances that serve to attract pollinators. These attractive features help ensure the transfer of pollen from the stamens to the pistil.
2. Protection: While the primary function of the corolla is to attract pollinators, it may also provide some protection to the reproductive organs of the flower. The petals can act as a barrier, shielding the stamens and pistil from external factors such as wind or rain.
Androecium is the male reproductive part of a flower, also known as the "whorl of stamens." It is responsible for producing and dispersing pollen, which contains the male gametes necessary for fertilization.
Components of Androecium:
Stamen
Types of Androecium
(b) Diadelphous Androecium
The stamens are arranged in two sets or groups. One set consists of a fused group of stamens, while the other set consists of free or separate stamens.
Example: A Pea Flower, there are nine stamens, with one set of fused stamens (9+1 arrangement) and a separate stamen.
(c) Polyadelphous Androecium
The stamens are fused or joined together in more than two groups. The fusion can occur in various ways, such as forming a tube, cup, or column.
Example: Flowers of the citrus family (Rutaceae) and the mallow family (Malvaceae) exhibit polyadelphous androecium.
(d) Epipetalous Androecium
The stamens are attached to the petals of the flower. They are either fused with the petals or attached to their bases.
Example: Flowers of the nightshade family (Solanaceae) and the lily family (Liliaceae).
(e) Epiphyllous Androecium
The Stamens are attached to perianth of the flower.
Example: Lily
Functions of Androecium
Gynoecium is the female reproductive part of a flower, also known as the "pistil." It is responsible for producing the female gametes (eggs) and facilitating the process of fertilization.
Components of Gynoecium
Types of Gynoecium
(a) Apocarpous Gynoecium:
Apocarpous refers to a type of gynoecium where the pistils or carpels of a flower are separate or not fused with each other. Each pistil in an apocarpous gynoecium has its own stigma, style, and ovary.
Example: Buttercup Family (Ranunculaceae), Rose Family (Rosaceae)
Apocarpous Gynoecium
(b) Syncarpous Gynoecium:
Syncarpous refers to a type of gynoecium where the pistils or carpels of a flower are fused or joined together to form a single structure.
Example: Mustard Family (Brassicaceae), Lily Family (Liliaceae)
Placentation is defined as the arrangement of the placenta in the ovary of a flower. The placenta connects the ovules with the wall of the ovary.
1. Marginal placentation: In marginal placentation, the placenta forms a ridge along the ventral suture of the ovary and the ovules develop on it making two separate rows. This type of placentation is found in pea plants.
2. Parietal placentation: In parietal placentation, the ovules remain attached to the inner walls of the ovary. It is found in cucumber, etc.
3. Axile placentation: In axile placentation, the placenta lies on a central axis and ovules are attached to it. The ovary is segmented by fibrous septa. It is found in China rose, lemon, and tomato.
4. Basal placentation: In basal placentation, the placenta develops from its base and a single ovule is found attached to the base. It is found in the Asteraceae family that consists of marigold, sunflower, etc.
5. Free central placentation: In free central placentation, the ovules are present on the central axis. There is no formation of septa. This type of placentation is found in Dianthus and primrose.
Note:
- The ovules inside a flower's ovary are attached via funiculi, the plant part equivalent to an umbilical cord in human beings. The part of the ovary where the funiculus attaches is known as the placenta.
- Placentation is meant for the transfer of nutrients, respiratory gases, and water from maternal tissue to the growing embryo, and also for the removal of waste from the embryo.
- Some plants have a special type of placentation known as Superficial placentation where the ovules develop over the entire inner surface of the carpels. It generally occurs in a multicarpellary ovary, e.g., Nymphaea.
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