Flower Types
Agriculture

Flower Types


Yellow hibiscus flower
Yellow hibiscus flower

The flower is the most distinctive feature of the phylum Anthophyta, commonly referred to as angiosperms or flowering plants, and is responsible in making them the most dominant, diverse, and widespread of all groups of plants.

There are already about 250,000 species of flowering plants that have been discovered and named. The basis for their diversity comes from their incredible reproductive success in a wide variety of habitats.

The success of this group is also reflected by the diversity of their flowers that show astonishing displays of different forms, sizes, shapes, and colors?all of these to lure pollinators and effect sexual reproduction.

Flowers are considered as an organ system because they are made up of two or more sets, or whorls, of leaflike structures. A typical flower is composed of four whorls, which are the sepals, petals, stamens, and a pistil with one or more carpels. Much of the variation among flowers is based on variation of these basic parts.

Complete and Incomplete Flowers

A flower that has all four whorls of floral parts is said to be a complete flower (such as the hibiscus and the lily). An incomplete flower lacks any one or more of these parts (such as those of elms, willows, oaks, and plantains).

With or without sepals and petals, a flower that has both stamen and pistil is called a perfect flower. Thus, all compete flowers are prefect, but not all perfect flowers are complete. In contrast, flowers that have only stamens or only pistils are called imperfect flowers.

Unisexual and Bisexual Flowers

Unisexual flowers are either staminate (bearing stamens only) or pistillate (bearing pistils only) and are said to be imperfect. Bisexual flowers are perfect because they have both stamens and pistil.

When staminate and pistillate flowers occur on the same individual, the plant is called monoecious (examples include corn and the walnut tree). When staminate and pistillate flowers are borne on separate individual flowers, the plant is said to be dioecious (examples include asparagus and willow).

Superior or Inferior Ovaries

Tulips
Tulips

The position of the ovary also varies among different flower types. A flower has a superior ovary when the base of the ovary is located above where the sepals, petals, and stamens are attached. This point of attachment is referred to as the receptacle or hypanthium, the fused bases of the three floral parts (tulips and St. John?s wort are examples).

An inferior flower has an ovary below where the sepals, petals, and stamens are attached (as do daffodils and sabatia). Some flowers show an intermediate type, where the receptacle partly surrounds the ovary; the petals and stamens branch from the receptacle about halfway up the ovary (as in cherry, peach, and almond flowers).

Hypogynous, Epigynous, and Perigynous Flowers

The position of the ovary in relation to the attachment of floral parts also varies from superior to inferior ovaries. Flowers in which the sepals, petals, and stamens are attached below the ovary are called hypogynous, and the ovaries of such flowers are said to be superior (as in pelargonium and silene).

narcissus flowers
narcissus flowers

Flowers in which the sepals, petals, and stamens appear to be attached to the upper part of the ovary due to the fusion of the hypanthium are called epigynous, and the ovaries of such flowers are said to be inferior (as in cornus and narcissus).

Flowers in which the hypanthium forms a cuplike or tubular structure that partly surrounds the ovary are called perigynous. In such flowers, the sepals, petals, and stamens are attached to the rim of the hypanthium, and the ovaries of such flowers are superior.

Fused and Distinct Floral Parts

The parts of a flower may be free or united. Fusion of like parts (such as petals united to petals) is called connation. When like parts are not fused, they are said to be distinct (one petal is distinct from another petal).

Fusion of unlike parts (stamens united to petals) is called adnation, and the contrasting condition is called free (stamens are free from petals). Fused structures may be united from the moment of origin on ward, or they may initially be separate and grow together as one later in development.

Regular and Irregular Flowers

In many flowers, the petals of similar shape radiate from the center of the flower and are equidistant from one another. Such flowers are said to have regular or radial symmetry.

In these cases, even though there may be an uneven number of sepals and petals, any line drawn through the center of the flower will divide it into two similar halves. The halves are either exact duplicates or mirror images of each other. Flowers with radial symmetry are also called actinomorphic flowers (examples: stonecrop, morning glory).

Flowers with irregular or bilateral symmetry have parts arranged in such a way that only one line can divide the flower into equal halves that are more or less mirror images of each other. Flowers with bilateral symmetry are also called zygomorphic flowers (examples: mint, pea, snapdragon). A few flowers have no plane of symmetry and are referred to as asymmetrical.



Corolla Shapes

Corolla is the collective term for all the petals of a single flower. This is usually the showy part of the flower. In fused corollas, any extension of the petal beyond its fused part is called the limb.

The tubelike structure where the petals are united at the bottom of the fused corollas is called the tube. The opening at the top of the tube in fused corollas is called the throat.

In the following different types of corolla shapes, numbers 1 to 6 are actinomorphic, while numbers 7 to 11 are zygomorphic.
  1. Rotate: wheel-shaped with a short tube and large limb (example: bluets).
  2. Campanulate: bell-shaped with an extended, flaring tube (example: bellflower).
  3. Funnelform: funnel-shaped with a continuously expanding tube and little flaring (example: bindweeds).
  4. Tubular: an elongated tube with minimal limb (example: trumpet vine).
  5. Salverform: an elongated tube with a conspicuous limb, trumpet-shaped (examples:Russian olive, morning glory).
  6. Urceolate: an inflated tubewith a terminal constriction, urn-shaped (example: highbush blueberry).
  7. Bilabiate: two-lipped, usually because of the presence of a landing platform formed by basal lobes (examples: snapdragon, salvia).
  8. Ligulate: petals connate at the margins to form a strap-shaped corolla (example: asters).
  9. Galeate: helmet-shaped(example: pedicularis).
  10. Spurred: with an extension or spur that often produces nectaries (examples: impatiens, utricularia).
  11. Papilionaceous: like a butterfly with a central standard petal and lateral wing petal (example: lupines).

Flowers of Monocots and Dicots

Floral variation provides part of the basis for dividing the flowering plants into two major groups: the dicotyledons and the monocotyledons.

The informal name ?dicot? is given to plants having two cotyledons (seed leaves) in each seed; ?monocot? refers to plants that have one cotyledon in the seed. In monocots, the flower parts occur in threes or multiples of three; for example, three sepals, three petals, six stamens, and a pistil with three carpels.

In dicots, flower parts usually occur in fours or fives or multiples of four or five. Although dicots and monocots may have other numbers of floral parts, many other features are unique to each group.

Dicots include about 80 percent of all angiosperm species, including many herbaceous plants and all woody, flower-bearing trees and shrubs. Monocots are primarily herbaceous, but they also include some trees, such as palms and Joshua trees.

Types of Inflorescence

Flowers may be solitary, or they may be grouped together in an inflorescence, a cluster of flowers. An inflorescence has one main stalk, or peduncle. It may also bear numerous smaller stalks called pedicels, each with a flower at its tip.

The arrangement of pedicels on a peduncle characterizes different kinds of inflorescences. Some of the common types of inflorescences are as follows:

Some types of inflorescences characterize different groups of plants. For example, nearly all members of the carrot family (Apiaceae) have compound umbels. All members of the sunflower family (Asteraceae) have heads, including chrysanthemums, zinnias, marigolds, and dandelions. All members of the arum family (Araceae) have a spadix inflorescence.




- Compositae
CompositaeIn number of species, the family Compositae or Asteraceae, commonly known as the sunflower family, is among the largest families of flowering plants. The Compositae family consists of more than eleven hundred genera worldwide and possibly as...

- Inflorescence
InflorescenceThe term ?inflorescence? refers to the arrangement of flowers on a floral axis. Most schemes that define inflorescence types separate solitary flowers from flower clusters and stipulate that an inflorescence is a cluster of two or more flowers....

- Monocots Vs Dicots
Within the angiosperms (flowering plants), two classes have been traditionally recognized by botanists: monocots and dicots. The terms connote differences between these groups? seed embryos. The recently introduced class, eudicots, literally meaning ?true...

- Edible Flowers
Edible flowers add a special touch to salads. Once the salad has been tossed with dressing, pick off petals from edible flowers and toss them on top. Many flowers have a strong flavor, so use a light hand when adding them to your greens. Nasturtium Available...

- Botanical Description Of Arecanut
Description of the plant Betel nut is a slender, single-trunked, monoecious palm with a prominent crown shaft. Size The palm reaches a mature height of 10?20 m (33?66 ft) (exceptionally up to 30 m [100 ft]), with a trunk 25?40 cm (10?16 in) in diameter....



Agriculture








.