Plant Kingdom

The Plant Kingdom consists of multicellular, autotrophic organisms that perform photosynthesis. It includes algae, mosses, ferns, gymnosperms, and angiosperms. This guide explains classification, characteristics, examples, and NEET-ready notes.

It is difficult to imagine the terrestrial environment without any plants or other organisms. Yet for more than 3 billion years the Earth's land surface was largely lifeless. It was only about 500 million years ago that small plants as well as fungi and animals originated. By about 370 million years ago, some plants appeared that could grow much taller, leading to the formation of the first forests. Plants have diversified widely today, there are more than 290,000 known plant species. The presence of land plants has enabled other life-forms including animals, to survive on land. The Plant Kingdom is important in biology, as it forms the base for advanced studies in botany and ecology.

This Story also Contains

1. What is Kingdom Plantae?
2. Characteristics of Kingdom Plantae
3. Reproduction in Plants
4. Physiological Processes of the Plants
5. Classifications of Kingdom Plantae
6. Plant Kingdom NEET MCQs
7. FAQs of Plant Kingdom
8. Recommended Video on Plant Kingdom

What is Kingdom Plantae?

The five-kingdom biological classification of all living organisms into Monera, Protista, Fungi, Plantae, and Animalia. The kingdom includes multicellular, eukaryotic organisms that photosynthesise and manufacture their own food. Here, the plants are characterised by their structure, reproduction and adaptation. They play a major role in the ecosystem as producers and are found at the base of the food chain.

The classification has ranged from simple observation to modern molecular techniques. Plants are very important because they provide oxygen, along with various other things. They also help in maintaining nature’s balance, fight climate change and prevent species extinction.

Important Topics of Chapter Plant Kingdom

• Algae

• Bryophytes

• Pteridophytes

• Gymnosperms

• Angiosperms

Characteristics of Kingdom Plantae

Kingdom Plantae consists of multicellular, autotrophic organisms that make their own food through photosynthesis. These organisms have cell walls made of cellulose and store energy as starch. They play a key role in maintaining oxygen levels and forming the base of food chains. The following are characteristics of the plant kingdom:

• Multicellularity: Flowers are made up of specialised multicellular cells forming tissues and organs.

• Photosynthetic Autotrophs: They are mostly autotrophic; they prepare their food with the help of the green pigment known as chlorophyll in photosynthesis.

• Presence of Cell Walls: The plant cells are covered by a cell wall, mainly containing cellulose to provide rigidity and protection to the cell.

• Chlorophyll Types a and b: These also have green coloured chlorophyll a and b to enable the light to be absorbed by the plant.

Reproduction in Plants

Plants reproduce both sexually and asexually, depending on the group. Reproductive organs range from simple structures in algae to complex flowers in angiosperms. Alternation of generations is a common feature in their life cycles.

• Both gymnosperm and angiosperm life cycles are characterised by alternation of generations, involving two distinct multicellular phases, the haploid gametophyta and mainly the diploid sporophyte.

• The phase that is prevalent in the life cycle, called the gametophyte, produces gametes through meiosis; fusion of egg and sperm, and the zygote is formed.

• It differentiates into the sporophyte, and these sporophytes produce the haploid spores through meiosis. Such gametophytes grow into new gametophytes, and as such, the lifecycle of the plant is completed.

Types of Reproduction

• Sexual Reproduction: It refers to the fusion of gametes brought by the gametophytes, and this causes variation in offspring.

• Asexual Reproduction: This happens in a manner that involves fragmentation, budding or formation of reproductive structures like the bulbs and tubers, which form plants without fusion of gametes.

Physiological Processes of the Plants

Plants carry out essential physiological processes like photosynthesis, respiration, transpiration, and nutrient absorption. These functions help in energy production, water regulation, and growth. Adaptations such as stomata, xylem, and phloem support these functions. Plants perform several important physiological processes that sustain their growth, development, and interaction with the environment.

Photosynthesis

• Chlorophyll is a pigment in chloroplasts in plants that enables light energy to be changed into a chemical form, glucose, which the plant uses for energy, and the byproduct of this process is oxygen.

• Photosynthesis is important for getting energy for the metabolic activities of plants and for the synthesis of oxygen used in aerobic respiration by living beings.

Respiration

• Through cellular respiration, plant cells can split glucose molecules and release free energy for use in other cellular processes. This process, called cellular respiration, takes place in the mitochondria, where oxygen is used in the process and carbon dioxide and water are formed as waste.

• Regulation assists in the growth, development, and reproduction of plants throughout the process of respiration.

Transpiration

• Stomata on the leaves of plants enable the process of releasing water vapour into the surroundings.

• It helps in controlling temperature, water uptake by the plant and absorption of other minerals from the ground.

• Transpiration in plants generates a pressure that drives the movement of water and nutrients from roots to the shoots, promoting plant development and nutrient distribution.

Classifications of Kingdom Plantae

Plants are classified based on traits like the presence of vascular tissues, seeds, and flowers. The major groups include algae, bryophytes, pteridophytes, gymnosperms, and angiosperms. Each group represents a different level of evolutionary advancement. Given below is the classification of the Kingdom Plantae in detail:

Thallophyta

• Thallophytes have a thallus-like body structure and lack a well-differentiated body structure.

• Plants of the Thallophyta family have a primitive and simple body structure.

• The thallus is the plant's main body, and it can be filamentous, colonial, branching, or unbranched.

• Algae such as green algae, red algae, and brown algae are examples. Volvox, Fucus, Spirogyra, Chara, Polysiphonia, Ulothrix, and other species are common examples.

Bryophyta (Mosses)

• Bryophyta usually have low-growing, attached to the ground in appearance.

• Mosses are bisexual and reproduce through the formation of spores in capsules at the tips of stalks called setae, which are formed from the gametophyte plant.

• Vascular tissues are absent in bryophytes. Root-like, stem-like, and leaf-like components make up the plant's body.

• Bryophytes are terrestrial plants that are also known as "Amphibians of the Plant Kingdom" since they require water for sexual reproduction.

• They survive in wet, shaded environments. Mosses, hornworts, and liverworts are all members of the Bryophyta family.

• Marchantia, Funaria, Sphagnum, Antheoceros, and some examples.

Pteridophyta (Ferns)

• Ferns are among the vascular plants that have true roots, stems (rhizomes), and leaves (fronds).

• They reproduce through spores, and the spore-producing structures or sporangia are found on the surface of fronds, particularly the undersides.

• Most ferns usually have a highly developed sporophyte generation.

• Pteridophytes have a distinct plant body that is divided into roots, stems, and leaves.

• They have a transport system that allows water and other chemicals to be transported.

• Selaginella, Equisetum, Pteris, and other common examples are only a few.

Gymnosperms (conifers)

• Gymnosperms are vascular plants which produce seeds on cones or cone-like structures.

• Gymnosperm is derived from the Greek words gymnos (naked) and sperma (seed), which literally means seed without a covering.

• It has needle-like or scaly leaves, and these plants are found in areas ranging from the boreal to the desert. Some of these conifers are pines, spruces, and cypresses as well.

• The plant body and vascular tissues are well-differentiated.

• They produce naked seeds, which are seeds that are not encased in a fruit.

• Gymnosperms include plants such as Cycas, Pinus, Ephedra, and others.

Angiosperms (Flowering Plants)

• Angiosperms are plants with seeds and fruits.

• Angiosperms have flowers for sexual reproduction, attracting insects, birds, and mammals for pollination.

• Angiosperms have numerous forms of adaptations and are the biggest class of plants in the world.

• Angiosperms are vascular plants that produce seeds and have a well-differentiated plant body.

• Angiosperm seeds are contained within the fruits.

• Angiosperms are found all over the world and come in a wide range of sizes.

• Eucalyptus trees grow to be around 100 meters tall, while Wolffia plants grow to be about 0.1 cm tall.

• According to the number of cotyledons contained in the seeds, angiosperms are further split into monocotyledons and dicotyledons.

• Mango, rose, tomato, onion, wheat, maize, and other common examples.

Plant Kingdom NEET MCQs

Q1. Bryophytes are different than algae in

1. Having multicellular sporophytic generation

2. Having no sporophyte

3. Having zygotic meiosis

4. Formation of embryo

Correct answer: 4) Formation of embryo

Explanation:

Embryo formation is absent in algae, given that the zygote mostly undergoes meiosis instead of developing into an embryo. On the other hand, bryophytes exhibit embryogenesis, a process in which the zygote develops into a multicellular embryo, which then progresses to form a sporophyte. This establishes a difference in the reproductive strategy of these two different groups: where bryophytes depend upon embryonic development for the continuity of their life cycle, but algae do not.

Hence the correct answer is Option (4) Formation of embryo.

Q2. Choose the incorrect match pair:

1. Hepaticopsida - Marchantia

2. Sporophyte - Columella

3. Bryopsida - Anthoceros

4. Biflagellate antherozoids - Riccia

Correct answer: 3) Bryopsida - Anthoceros

Explanation:

Anthoceros is classified within the class: Anthocerotopsida, but it is still within the phylum: Anthocerotophyta. These are hornworts with all their peculiar aspect and reproductive biology. It constitutes the largest genus from this class since it has been documented to host around 200 species spread from all over, mainly in cool and shaded or moist places. The taxonomical classification of Anthoceros is as listed below:
Domain: Plantae
Division: Anthocerotophyta
Class: Anthocerotopsida
Orde : Anthocerotales
Family: Anthocerotaceae
This classification draws out the distinguishing features and ecological functions of the Anthoceros within the larger context of the bryophyte.

Hence the correct answer is Option (3) Bryopsida - Anthoceros.

Q3. In liverworts spore dispersal occurs via

1. Peristome teeth

2. Trabeculae

3. Elaters

4. Perigynium

Correct answer: 3) Elaters

Explanation:

Liverworts disperse by using their elaters, which have the appearance of tubular cells. Elaters within the capsules of their spores facilitate the process of spore dispersal by exhibiting hygroscopic movements. In dry weather, elaters twist and spring to flick the spores into the air. It effectively promotes the dispersal of spores, assisting in the successful reproduction and colonization in appropriate environments.

Hence the correct answer is Option (3) Elaters.

Also Read:

• MCQs on Introduction to Kingdom Plantae

• Archegonium

• Angiosperm Life Cycle

FAQs of Plant Kingdom

What is the Plant Kingdom in the five-kingdom classification?

The Plant Kingdom is one of the five kingdoms in Whittaker’s classification. It consists of multicellular, eukaryotic, and autotrophic organisms. These organisms contain chlorophyll pigments that allow them to perform photosynthesis. Plants have rigid cell walls made up of cellulose that provide structural support. They are the primary producers of food in ecosystems. They play a crucial role in maintaining oxygen balance on Earth.

What is the alternation of generations in plants?

Alternation of generations is a unique feature of plants where their life cycle alternates between two multicellular stages. The haploid gametophyte produces gametes through mitosis. The fusion of gametes forms a zygote, which develops into the sporophyte. The sporophyte undergoes meiosis to produce haploid spores. These spores give rise again to gametophytes, completing the cycle. This alternation ensures genetic variation and continuity of the plant life cycle.

Which physiological processes are unique to plants?

Plants carry out several physiological processes that support survival and growth. Photosynthesis allows them to convert light energy into chemical energy, respiration provides energy for metabolic activities, transpiration regulates water movement and absorption of minerals and water by roots supports nutrition. In addition, plants exhibit processes like photoperiodism and phototropism that help in adaptation. Together, these processes help plants to survive on Earth.

What is the difference between gymnosperms and angiosperms?

• Gymnosperms and angiosperms differ mainly in their seed characteristics. Gymnosperms produce naked seeds, not enclosed in fruits, and they usually form cones instead of flowers (e.g., Cycas, Pinus). Angiosperms are flowering plants with seeds enclosed within fruits (e.g., Wheat, Mango).

• Gymnosperms are mostly woody and evergreen, whereas angiosperms show great diversity in habit, ranging from herbs to large trees.

• Angiosperms also show double fertilization, which is absent in gymnosperms.

Recommended Video on Plant Kingdom