Chapter Three: Plant Kingdom

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C HAPTER Three PLANT KINGDOM

In the previous chapter, we looked at the broad classification of living organisms under the system proposed by Whittaker wherein he suggested the Five Kingdom classification viz. Monera, Protista, Fungi, Animalia and Plantae. In this chapter, we will deal in detail with further classification within Kingdom Plantae popularly known as the 'plant kingdom'.

We must stress here that our understanding of the plant kingdom has changed over time. Fungi, and members of the Monera and Protista having cell walls have now been excluded from Plantae though earlier classifications placed them in the same kingdom. So, the cyanobacteria that are also referred to as blue green algae are not 'algae' any more. In this chapter, we will describe Algae, Bryophytes, Pteridophytes, Gymnosperms and Angiosperms under Plantae.

Let us also look at classification within angiosperms to understand some of the concerns that influenced the classification systems. The earliest systems of classification used only gross superficial morphological characters such as habit, colour, number and shape of leaves, etc. They were based mainly on vegetative characters or on the androecium structure. Such systems were artificial; they separated the closely related species since they were based on a few characteristics. Also, the artificial systems gave equal weightage to vegetative and sexual characteristics; this is not acceptable since we know that often the vegetative characters are more easily affected by environment. As against this, natural classification systems developed, which were based on natural affinities among the organisms and consider,

not only the external features, but also internal features, like ultrastructure, anatomy, embryology and phytochemistry. Such a classification for flowering plants was given by George Bentham and Joseph Dalton Hooker.

At present phylogenetic classification systems based on evolutionary relationships between the various organisms are acceptable. This assumes that organisms belonging to the same taxa have a common ancestor. We now use information from many other sources too to help resolve difficulties in classification. These become more important when there is no supporting fossil evidence. Numerical Taxonomy which is now easily carried out using computers is based on all observable characteristics. Number and codes are assigned to all the characters and the data are then processed. In this way each character is given equal importance and at the same time hundreds of characters can be considered. Cytotaxonomy, that is based on cytological information like chromosome number, structure, behaviour and chemotaxonomy, that uses the chemical constituents of the plant to resolve confusions, are also used by taxonomists these days.

Three point one ALGAE

Algae are chlorophyll-bearing, simple, thalloid, autotrophic and largely aquatic (both fresh water and marine) organisms. They occur in a variety of other habitats: moist stones, soils and wood. Some of them also occur in association with fungi (lichen) and animals (e.g., on sloth bear).

The form and size of algae is highly variable, ranging from colonial forms like Volvox and the filamentous forms like Ulothrix and Spirogyra. A few of the marine forms such as kelps, form massive plant bodies.

The algae reproduce by vegetative, asexual and sexual methods. Vegetative reproduction is by fragmentation. Each fragment develops into a thallus. Asexual reproduction is by the production of different types of spores, the most common being the zoospores. They are flagellated (motile) and on germination gives rise to new plants. Sexual reproduction takes place through fusion of two gametes. These gametes can be flagellated and similar in size (as in Ulothrix) or non-flagellated (non-motile) but similar in size (as in Spirogyra). Such reproduction is called isogamous. Fusion of two gametes dissimilar in size, as in species of Eudorina is termed as anisogamous. Fusion between one large, non-motile (static) female gamete and a smaller, motile male gamete is termed oogamous, e.g., Volvox, Fucus.

PLANT KINGDOM

Three point one point one Chlorophyceae

Three point one point two Phaeophyceae

PLANT KINGDOM

Three point one point three Rhodophyceae

Three point two BRYOPHYTES

PLANT KINGDOM

Three point two point one Liverworts

Three point two point two Mosses

Three point four GYMNOSPERMS

Three point five ANGIOSPERMS

SUMMARY

EXERCISES

Overview

The chapter focuses on the classification within the plant kingdom, detailing the traits and significance of various plant groups and the methodologies used in their classification. It highlights the shift from artificial to natural classification systems and the current phylogenetic approaches.

Key Points

1The plant kingdom is now classified based on evolutionary relationships among organisms
2Algae play a crucial role in carbon fixation and oxygen production
3Bryophytes are known as amphibians of the plant kingdom due to their dependence on water for reproduction
4The classification systems have evolved from superficial characteristics to detailed natural affinities
5Algae, bryophytes, and other plants have significant ecological and economic importance.

Details

Category: Biology and Natural Sciences

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