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UNIT I DIVERSITY IN THE LIVING WORLD
Chapter 2 : Biological Classification
UNIT II STRUCTURAL ORGANISATION IN PLANTS AND ANIMALS
Chapter 5 : Morphology of Flowering Plants
Chapter 6 : Anatomy of Flowering Plants
Chapter 7 : Structural Organisation in Animals
UNIT III CELL : STRUCTURE AND FUNCTIONS
Chapter 8 : Cell : The Unit of Life
Chapter 10 : Cell Cycle and Cell Division
UNIT IV PLANT PHYSIOLOGY
Chapter 11 : Photosynthesis in Higher Plants
Chapter 12 : Respiration in Plants
Chapter 13 : Plant Growth and Development
UNIT V HUMAN PHYSIOLOGY
Chapter 14 : Breathing and Exchange of Gases
Chapter 15 : Body Fluids and Circulation
Chapter 16 : Excretory Products and their Elimination
Chapter 17 : Locomotion and Movement
KINGDOM- PLANTAE
All the multicellular eukaryotic plants are placed in kingdom- plantae. They are autotrophic i. e. they manufacture their food photosynthesis.
Following plant groups are included in kingdom- plantae
(1)ALGAE (2) BRYOPHYTA (3) PTERIDOPHYTA (4) GYMNOSPERM (5) ANGIOSPERM
ALGAE
Term'' Algae '' was given by Linnaeus.
Phycology- Study of algae.
Father of Phycology → Fristch → Book → Structure & Reproduction of algae''
Father of Indian phycology- M.O.P.Iyengar
Algae are found in both fresh and marina water.
Algae are found in many forms like filamentous, colonial.
Algae are surrounded by mucilaginous sheath and below the sheath cell wall is present which is made up of cellulose and pectin but mainly made up of cellulose, galactans, mannans and mineral like calcium carbonate
On the basis of structure, algae are thalloid i. e. plant body is not differentiated into root, stem and leaves
Tissue system is also absent in algae.
On the basis of nutrition, algae are photoautotrophic. They have chioroplast in which photosynthrric pigments are present. Classification of algae is mainly based pigments. Chl-a and B carotene are universal pigments of algae.
Cell wall of algae is made up of cellulose a pectin, gallactose a mannose
Vegetative (2) Asexual (3) Sexual
Vegetative reproduction
(i) Binary fission - cell divided into two parts and nucleus is also divided into two parts by mitosis. eg. Found only in unicellular algae
(ii) Fragmentation - Filaments break down into smll pieces from new filaments. eg. All filamentous algae
Asexual reproduction :
By different types of spores like zoospore, aplanospore, hypnospore akinetes. Zoospores are formed in favourable conditions and Aplanospores, hypnospore and akinete etc. are formed unfavourable condition.
Thick walled spores (Hypnospres akinetes) also protect the algae from unfavourabke condition so they are the methods of pernnation also.
Sexual reproduction :
Male sex organ is called antheridium and female called oogonium. The sex organs of algae are unicellular & jacketless. But exceptionally sex organs of green algae Chara (chara-green-algae known as stone wort) are multicellular and jacketed. The male sex organ of Chara is known as globule and female is known as nucule.
Plant body of algae is haploid so sexual repro. Take place through zygotic meiosis. So their life cycle is haplontic. But exceptionally brown algae are diploid and sexual reproduction tack place through gemtic meiosis in them.The life cycle of brown algae is diplona-plontic.
Algae reproduce by zygotic meiosis i.e. first division in zygote is meiosis so embryo is not formed. Sexual repro. Is of three types
(a) Isogamous - Chlamydomonas debaryanum, Ulothrix, Ectocarpu, Spirogyra
(b) Anisogamous - Chlamydomonas braunii
(c) Oogamous - Chlamydomonas coccifera, Sargassum, Volvos Fucus
Note:
(1) chlamydomanas exhibits complet evolution of sexual reproduction.
(2) In chlamydomanas debaryanum gametes are flagellated and similar in size.
(3) In chlamydomonas braunii gametes are motile and dissimilar in size.
The classification of algae is mainly based on the photosynthetic pigments. In addition to this, cell wall composition and stored food are also the base of classification.
Algae is divided into following divisions
(1) CHLOROPHYTA - GREEN ALGAE
(2) PHAEOPHYTA - BROWN ALGAE
(3) RHODOPHYTA - RED ALGAE
Some important Points about Algae
Atleast a half of the total CO2 fixation (photosynthesis) on earth is carried out by algae, because on earth water is present in 2/3rd part. They perform oxygenic photosynthesis, so they increase the level of dissolved oxygen in their immediate (nearby) environment. They are primary producers (autotrophs) of energy rich compounds which form the basis of food cycles of all aquatic animals. As the producers algae are of paramount importance. About to species of marine algae are used as food.
Hydrocolloids or phycocolloids :- The colloidal substances obtained from algae which have very high water holding capacity are known as phycocolloids eg. Algin, Carrageen & Agar Agar.
Pyrenoids :- They are storage bodies located in the chloroplast in these bodies protein are present around which starch is also there. Means pyrenoids are made of proteins & starch.
NCERT Solutions
From this chapter, the pupils delve into the specifics of the world as it has been classified thus far. They learn about the plant kingdom's additional classification in order to make it easier to study. They are exposed to new terms such as Gymnosperms, Angiosperms, and so on throughout this chapter. They also learn about the plant life cycle and generational change. They completely comprehend the habitat, features, and physiology of plants, which are complex organisms.
1. What is the basis of classification of algae?
Solution:
Presence of pigments which imparts traditional color on algae is the main basis for the classification of algae.
Now, algae are classified on different criteria such as:
Flagellation
Storage products
Cellular organization
Constitution of cell walls
2. When and where does reduction division take place in the life cycle of a liverwort, a moss, a fern, a gymnosperm and an angiosperm?
Solution:
Reduction division takes place in the following stages:
Liverworts – Meiosis takes place in the spore mother cells of the capsule in sporangium resulting in haploid spore formation
Moss – Meiosis occurs in spore mother cells of spore sacs in the capsule of sporangium
Fern – sporangia are endured on sporophylls (fertile leaves). The process of meiosis occurs in spore mother cells of sporangium for the formation of haploid spores.
Gymnosperm – meiosis occurs in microsporangia located in the microsporophylls, in the microspore mother cells for the formation of haploid pollen grains giving rise to male gametophyte
Angiosperm – pollen grains that are formed in microspore mother cells leads to the formation of male gametophyte in the anther of the stamen. The megaspore mother cell located in the nucleus of the ovule undergoes meiosis for the formation of haploid megaspore which eventually forms the female gametophyte.
3. Name three groups of plants that bear archegonia. Briefly describe the life cycle of any one of them.
Solution:
Bryophytes, Pteridophytes, and Gymnosperms are the plants that bear archegonia.
The life cycle of Bryophytes
Bryophytes are haploid, and they produce gametes. Sex organs in bryophytes are multicellular.
The male sex organ is antheridium, which produces biflagellate antherozoids. Female sex organs are called archegonium which produces single egg.
Antheridium releases antherozoids into the water which comes in contact with archegonium.
An antherozoid fuses with the egg to produce the zygote.
The zygote undergoes reduction division to produce a multicellular body called a sporophyte.
Saprophytes undergo reduction division to produce haploid spores.
These spores germinate to produce gametophyte.
4. Mention the ploidy of the following:
protonemal cell of a moss; primary endosperm nucleus in dicot, leaf cell of a moss; prothallus cell of a fern; gemma cell in Marchantia; meristem cell of monocot, ovum of a liverwort, and zygote of a fern.
Solution:
5. Write a note on economic importance of algae and gymnosperms.
Solution:
Importance of Algae
Algae fixes Carbon dioxide with the help of photosynthesis
It increases the level of dissolved oxygen in their immediate environment
They produce rich compounds that serve as food for aquatic animals.
Marine algae are used as food ex: Laminaria and Sargassum
Certain algae are used as hydrocolloids
Agar is used in growing microorganisms and in preparation of jellies.
Chlorella is used as food by space travellers.
Importance of Gymnosperms
Gymnosperms plants are used as ornamentals. Some are features in formal gardens – used for bonsai
Their fibers are used in the preparation of paper pulp.
Turpentine and resins are obtained from confers resin
Useful oils are extracted from gymnosperms like junipers, pines, hemlock, fir, spruces, and arborvitae.
Gymnosperm seeds are used as food products like bakery items.
Occassionaly used to create silk and other textiles
6. Both gymnosperms and angiosperms bear seeds, then why are they classified separately?
Solution:
Following are the reasons for classifying Angiosperms and Gymnosperms separately.
In gymnosperms, ovules are naked whereas they are enclosed inside the ovary in angiosperms
In Gymnosperms endospore is haploid and produced before fertilization whereas in Angiosperms endosperm is triploid and formed after double fertilization.
In Gymnosperms double fertilization does not occur, but in Angiosperms, double fertilization occurs.
In gymnosperms, wood is nonporous and in angiosperms wood is porous.
7. What is heterospory? Briefly comment on its significance. Give two examples
Solution:
The phenomenon of producing two different kinds of spores in the same plant is known as heterospory.
Significance of heterospory:
Heterospory leads to the development of seeds in gymnosperms and angiosperms.
It is required in the differentiation of male and female gametophytes.
Examples: Salvinia, Selaginella
8. Explain briefly the following terms with suitable examples:-
(i) protonema
(ii) antheridium
(iii) archegonium
(iv) diplontic
(v) sporophyll
(vi) isogamy
Solution:
i) Protonema is the haploid stage in the bryophyte lifecycle where thread-like chain of cells are formed Ex: In mosses protonema develops directly from a spore.
ii) Antheridium – The male sex organ, producing male gametes in bryophyte and pteridophytes is called antheridium. Ex: many fungi and algae have antheridia during their reproductive phases.
iii) Archegonium is a female reproductive organ of bryophytes which is flask-shaped and produces a single egg. Observed in pteridiophytes, gymnosperms, bryophytes, they are jacketed and multicellular, possessing a neck and a swollen venter.
iv) Diplontic – Life cycle in which dominant free living phase is diploid, generating haploid gametes. Ex: Sargassum
v) A leaf which bears sporangia is called as sporophyll, which may be microsporophyll or megasporophyll. These structures combine to form strobini(cones) Ex: Pinus
vi) Isogamy – Sexual reproduction that takes place through fusion of two gametes which can be flagellated and similar in size or non-flagellated (non-motile) but similar in size. Such reproduction is called isogamy. Ex: Ectocarpus
9. Differentiate between the following:-
(i) red algae and brown algae
(ii) liverworts and moss
(iii) homosporous and heterosporous pteridophyte
(iv) syngamy and triple fusion
Solution:
Following are the differences:
i)Red algae and brown algae
In red algae chlorophyll a and chlorophyll d are present whereas in brown algae chlorophyll a and c are present.
In red algae, Phycobilins are present whereas in brown algae phycobilins are absent.
Red algae have reserved food material in the form of Floridian starch whereas in brown algae it is laminarin.
Red algae are non-flagellated, and brown algae are flagellated.
ii) In liverworts protonema stage is absent and in moss lifecycle begins with protonema.
In liverworts plant body is dorsoventral whereas in moss plant body is differentiated into a stem-axis.
iii) Homosporous possesses only one type of spores whereas heterosporous posseses morphologically distinct spores in a different sporangia
iv) Syngamy is the fusion of the male gamete with the ovum whereas triple fusion is the fusion of another male gamete with two polar nuclei.
10. How would you distinguish monocots from dicots?
Solution:
11.Match the following (column I with column II)
Column I
Column II
(a) Chlamydomonas
(i) Moss
(b) Cycas
(ii) Pteridophyte
(c) Selaginella
(iii) Algae
(d) Sphagnum
(iv) Gymnosperm
Solution:
Column I
Column II
(a) Chlamydomonas
(iii) Algae
(b) Cycas
(iv) Gymnosperm
(c) Selaginella
(ii) Pteridophyte
(d) Sphagnum
(i) Moss
12. Describe the important characteristics of gymnosperms.
Solution:
Important characteristics of gymnosperms are as follows
In Gymnospersm ovules are not enclosed by the ovary. They remain exposed before and after fertilization.
Seeds are naked
Gymnosperms include medium-sized trees or tall trees and shrubs.
Roots are taproots
Stems are branched or unbranched
Leaves are simple and compound
Plant body is distinguished into root, stem and leaves and is a sporophyte
They produce two kinds of spores hence they are termed as heterosporous
Fertilization takes place in the absence of external water by syphonogamy.
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