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Angiosperms

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Angiosperms come under the classification of Plant Kingdom. Kingdom Plantae incorporates every one of the plants. They are eukaryotic, multicellular, and autotrophic life forms. The plant cell contains an unbending cell wall. Plants have chloroplast and chlorophyll shade, which is expected for photosynthesis. All eukaryotic, multicellular plants that use photosynthesis to create their nourishment belong to the kingdom Plantae. 

Cell walls in plants are stiff and comprised of cellulose and pectin. They include photosynthesis-promoting organelles like chloroplasts and chlorophyll. These do not move. They are capable of both sexual and asexual reproduction. Few plants, like the pitcher plant, are unable to make their own food and obtain sustenance by feeding on insects. They help to keep the ecological equilibrium. Global warming is a result of a decline in plant diversity. They replicate abiogenically by vegetative engendering or physically. Different techniques are used by the species in the Kingdom Plantae to reproduce. Some species use sexual reproduction, while others use asexual methods. In the traditional system of classification, the plant kingdom is divided into two subdivisions- cryptogams and phanerogams. Seed plants are divided into two groups, gymnosperms, and angiosperms.

Angiosperms

Vascular plants having stems, roots, and leaves are known as angiosperms. A flower contains the angiosperm’s seeds. The vast majority of plants on earth are comprised of them. The seeds grow into fruit inside the organs of the plant. They are also referred to as flowering plants as a result. The most developed and useful group of plants is angiosperms. They can develop as bushes, trees, herbs, and shrubs in a variety of settings.

Approximately 250 million years ago, the angiosperms, which now make up 80% of all plants on Earth, first appeared. It is a significant source of food for both people and animals, they are. 

The distinctive vascular bundle with the xylem and phloem tissues for the conduction of water, minerals, and nutrients is present in all angiosperm plants. The root system, shoot system, and leaves are all well-developed, and the plant body is distinct. There are specialized structures here known as flowers. The male and female gametes grow within these blossoms. These blossoms develop into fruits that contain seeds after being fertilized.

Angiosperms can be found in a wide range of settings and can be any size. Compared to the approximately 100-meter-tall Australian mountain ash tree, Wolfie is a minuscule angiosperm. The angiosperms exhibit a tremendous amount of diversity. There are several species of plants, including tall woody trees, shrubs, and even herbaceous ones.

Angiosperm

Angiosperm

Characteristics of Angiosperms

Angiosperms exhibit a variety of traits. The following is a list of some angiosperms’ key traits:

  • Flowers are a part of every plant’s life cycle. The reproductive organs of the plant, which also serve as a route of genetic information exchange, are the flowers.
  • The stems, roots, and leaves of the sporophyte are distinct from one another.
  • The vascular system consists of phloem-based companion cells and xylem-based real vessels.
  • The flower is a structure made up of stamens (microsporophyll) and carpels (megasporophyll).
  • There are four microsporangia in each microsporophyll.
  • At the base of the megasporophyll, the ovary contains the ovules.
  • Angiosperms produce both microspores (pollen grains) and megaspores, making them heterosporous.
  • The nucleus retains a single functioning megaspore indefinitely.
  • Pollination is the process of reproduction where pollen grains are transferred from the anther to the stigma. They are in charge of transferring genetic material from one flower to the next. Compared to the gametophytes or reproductive cells found in non-flowering plants, pollen grains are significantly smaller.
  • The flowers undergo double and triple fusion, which produces a triploid endosperm and a diploid zygote.
  • Marine environments are just one of the many habitats in that angiosperms can thrive.
  • In angiosperms, fertilization occurs more quickly. Due to the smaller female reproductive components, the seeds are also generated swiftly.
  • Stamens, the reproductive organs of flowers, are a component of every angiosperm. They create pollen grains that contain genetic material.
  • The carpels contain growing seeds that could produce fruit.
  • One of the main benefits of angiosperms is the formation of the endosperm. After fertilization, the endosperm develops and serves as a food supply for the growing seed and seedling.

Classification of Angiosperms 

Angiosperms are divided into two subgroups—dicotyledonous (dicots) and monocotyledonous (monocots).

Monocotyledons

  • There is only one cotyledon on each seed.
  • The leaves have parallel veins and are simple.
  • This group includes accidental roots.
  • There are three parts in each floral whorl.
  • It has numerous, closed vascular bundles.
  • Bananas, sugarcane, flowers, etc. are a few examples

Dicotyledons

  • These plants produce seeds with two cotyledons.
  • Instead of adventitious roots, they have tap roots.
  • The venation on the leaves is reticulated.
  • The vascular bundles are arranged in rings, and the flowers are either tetramerous or pentamerous.
  • Take grapes, sunflowers, tomatoes, etc. as examples. 

 Life Cycle

  • Angiosperms have a diplontic life cycle with two stages: the sporophyte and the gametophyte.
  • In an angiosperm, the main plant body is called the sporophyte (2n), which is divided into roots, stems, and leaves.
  • Sporophyte cells undergo meiotic division to prepare for reproduction, resulting in the production of gametophytic reproductive cells (haploid), which have only half of all chromosomes (pollen grains or embryo sacs). Angiosperms’ floral components undergo meiosis.
  • Angiosperms contain an enormous variety of floral structures. The modified stalk of an angiosperm plant bears the flower, which is the sexual reproductive structure of angiosperms. 
  • The sepal-containing calyx, the petal-containing corolla, the stamen-containing androecium, and the gynoecium are the four whorls of a flower (contains pistil or carpel).
  • The stamen/microsporophyll is the male sex organ of a flower. Each of the tiny filaments that make up a stamen has an anther attached to the tip of it.
  • The pistil, carpel, or megasporophyll is the female sex organ in a flower. The ovary that makes up the pistil is where one or many ovules are kept.
  • Angiosperms are heterosporous because they produce megaspores as well as microspores (male and female).
  • The anthers of the stamen are where microspores are made. Mother cells for microspores are found in microsporangium, or pollen sacs, on anthers.
  • Inside the microsporangia of the anthers, the microspore mother cells undergo meiosis to produce haploid microspores, which then go through mitosis to produce pollen grains. One generative cell, which divides into two male gametes, and one vegetative or tube cell, which matures into the pollen tube cell, are typically present in each pollen grain. 
Life Cycle of an Angiosperm

Life Cycle of an Angiosperm

Economic Importance

  • The majority of the photosynthetic conversion of radiant energy into chemical energy occurs in angiosperms in the majority of terrestrial ecosystems. Thus, the majority of terrestrial food chains are based on angiosperms.
  • Angiosperms are the source of a large portion of our food, either directly or indirectly. As an illustration, all cereal grains, the majority of vegetables, fruits, nuts, most spices, and the majority of alcoholic and non-alcoholic beverages are all derived from angiosperms.
  • Numerous angiosperms produce substances with important medicinal properties. Chemicals produced by other angiosperms have a substantial impact on the human central nervous system. 
  • In deserts and by the sea. All are impacted, whether directly or indirectly. The Grass Family donates feedstock and any other raw materials required to run the business. In addition to wheat, barley, corn, millet, oats, rice, rye, sugar, and sorghum.
  • They are once again the most influential economically as flowers, trees, carrots, parsnips, ragwort, potatoes, mint, and herbs, as angiosperms are almost always used in medicine (aside from antibiotics), and wood for houses and other structures.

FAQs on Angiosperms

Question 1: What are three angiosperm examples?

Answer:

Wheat, corn, and other grains are examples of angiosperm. 

Question 2: What two types of angiosperms are there?

Answer:

The monocot and dicot subgroups of the angiosperm variety are distinguished chiefly by the number of cotyledons they have.

Question 3: Angiosperms generate what?

Answer:

Angiosperms are heterosporangiate, generating pollen and ovules in several organs, like other seed plants. 

Question 4: Angiosperm is a part of which kingdom?

Answer:

Angiosperm is a part of the kingdom Plantae.

Question 5: Which is the largest group of plant kingdoms?

Answer:

The largest subgroup of the plant kingdom is known as angiosperms.

Question 6: What makes angiosperm significant?

Answer:

Angiosperms are the primary source of consumer goods like building materials, textile fibers, spices and herbs, and pharmaceuticals. 



Last Updated : 17 Oct, 2022
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