Revision: Diversity of Living Organisms >> Plant Kingdom Biology (Theory) ISC (Science) ISC Class 11 CISCE

Key Points: Introduction of Plant Kingdom

Plant cells have a cell wall primarily made of cellulose, providing rigidity and structural support.
Most plants are autotrophic; they synthesise food (glucose) through photosynthesis using sunlight, water and CO₂; they release oxygen as a byproduct.
The life cycle involves two phases - the haploid gametophyte and the diploid sporophyte - alternating with each other.
The plant kingdom ranges from tiny mosses to towering trees; it shows a wide spectrum of adaptations and life cycles.

Key Points: Division II - Bryophyta

Bryophytes are called amphibians of the plant kingdom as they live on land but need water for reproduction.
They are found in damp, humid, and shaded places and lack true roots, stems, and leaves.
The plant body is thallus-like and attached to the substratum by rhizoids.
The gametophyte is the dominant phase, which produces male (antheridia) and female (archegonia) gametes.
Fertilisation requires water, forming a zygote that develops into a sporophyte (foot, seta, capsule).
Reproduction occurs by vegetative (fragmentation), asexual (gemmae), and sexual methods.
Economic importance: prevents soil erosion, acts as a pioneer species, provides peat (fuel), and has medicinal uses.

Key Points: Division III - Pteridophyta

Pteridophytes are vascular plants with true roots, stems, and leaves; the sporophyte is the dominant phase.
They are the first terrestrial plants with vascular tissues (xylem and phloem).
Leaves may be microphylls (small), as in Selaginella, or macrophylls (large), as in ferns.
Sporangia produce spores and are present on sporophylls, often forming cones (strobili).
Spores germinate into a haploid gametophyte (prothallus), which is small, independent, and photosynthetic.
Fertilisation requires water, and the zygote develops into a new sporophyte.
Some pteridophytes show heterospory (microspores and megaspores), which is an important step towards a seed habit.

Key Points: Phanerogams > Division I-Gymnosperms

Naked seeds - Gymnosperms have ovules not enclosed by the ovary wall; seeds remain exposed before and after fertilisation.
Vegetative features - Stem branched (Pinus) or unbranched (Cycas); leaves are needle-like with thick cuticle and sunken stomata to reduce water loss; roots are tap roots.
Special roots - Pinus has mycorrhiza (fungal association); Cycas has coralloid roots with N₂-fixing cyanobacteria.
Reproduction - Reproductive structures are strobili (cones); plants are heterosporous - male strobilus has microsporophylls (produce pollen); female strobilus has megasporophylls (bear ovules); pollination is by air (wind).
Fertilisation - Pollen tube carries male gametes to archegonium → fuses with egg → zygote → embryo; ovule develops into seed; life cycle is diplontic (sporophyte dominant).
4 groups - Cycads (Cycas), Conifers (Pinus, Cedrus), Ginkgoales (Ginkgo biloba), Gnetales (Ephedra, Gnetum).
Economic importance - Ephedrine (from Ephedra) for respiration; Taxol (from Taxus) for cancer; sago from Cycas; timber, resins, turpentine and paper pulp from conifers.

Key Points: Division II - Angiosperms

Angiosperms are flowering plants with seeds enclosed in fruits.
They show great variation in size, from small (Wolffia) to large trees (Eucalyptus).
Classified into monocots and dicots.
Double fertilisation occurs, forming a zygote and a triploid endosperm.
After fertilisation, the ovary becomes a fruit, and the ovule becomes a seed.
Life cycle is diplontic with a dominant sporophyte and a reduced gametophyte.