MULTIPLE CHOICE QUESTIONS
Q.1. A transverse section of stem is stained first with safranin and then with fast green following the usual schedule of double staining for the preparation of a permanent slide. What would be the colour of the stained xylem and phloem?
(a) Red and green
(b) Green and red
(c) Orange and yellow
(d) Purple and orange
Ans. (a)
Solution.
A transverse section of stem is stained first with safranin and then with fast green following the usual schedule of double staining for the preparation of a permanent slide. Red and green colour of the stained xylem and phloem appear.
Q.2. Match the followings and choose the correct option from below.
Options:
(a) A—(i), B—(iii), C—(v), D—(ii), E—(iv)
(b) A—(iii), B—(i), C—(ii), D—(v), E—(iv)
(c) A—(ii), B—(iv), C—(v), D—(i), E—(iii)
(d) A—(v), B—(iv), C—(iii), D—(ii), E—(i)
Ans.
Q.3. Match the following and choose the correct option from below
Options:
(a) A-iii, B-iv, C-i, D-ii
(b) A-i, B-ii, C-iii, D-iv
(c) A-iii, B-ii, C-iv, D-i
(d) A-iii, B-ii, C-i, D-iv
Ans. (a)
Q.4. Identify the simple tissue system from the following.
(a) Parenchyma
(b) Xylem
(c) Epidermis
(d) Phloem
Ans. (a)
Solution.
A simple tissue is made of only one type of cells so the origin of simple tissue is homogenous. Parenchyma, collenchyma and sclerenchyma comes under simple tissue.
Q.5. Cells of this tissue are living and show angular wall thickening. They also provide mechanical support. The tissue is
(a) Xylem
(b) Sclerenchyma
(c) Collenchyma
(d) Epidermis
Ans. (c)
Solution.
Collenchyma occurs only in dicots. Collenchyma is living mechanical tissue having cellulosic cell wall. Collenchyma is found in climbing stems like Cucurbita. In Cucurbita lacunate or angular collenchyma is present.
Q.6. Epiblema of roots is equivalent to
(a) Pericycle
(b) Endodermis
(c) Epidermis
(d) Stele
Ans. (c)
Solution.
The outermost (piliferous) layer is epidermis (epiblema) or rhizodermis.
Q.7. A conjoint and open vascular bundle will be observed in the transverse section of
(a) Monocot root
(b) Monocot stem
(c) Dicot root
(d) Dicot stem
Ans. (d)
Solution.
Each vascular bundle is conjoint, collateral, open, and with endarch in protoxylem dicot stem.
Q.8. Interfascicular cambium and cork cambium are formed due to
(a) Cell division
(b) Cell differentiation
(c) Cell dedifferentiation
(d) Redifferentiation
Ans. (c)
Solution.
Interfascicular cambium and cork cambium are formed due to cell dedifferentiation.
Q.9. Phellogen and phellem respectively denote
(a) Cork and cork cambium
(b) Cork cambium and cork
(c) Secondary cortex and cork
(d) Cork and secondary cortex
Ans. (b)
Solution.
Phellogen and phellem respectively denote cork cambium and cork.
Q.10. In which of the following pairs of parts of a flowering plant is epidermis absent?
(a) Root tip and shoot tip
(b) Shoot bud and floral bud
(c) Ovule and seed
(d) Petiole and pedicel
Ans. (a)
Solution.
In root tip and shoot tip, epidermis is absent.
Q.11. How many shoot apical meristems are likely to be present in a twig of a plant possessing 4 branches and 26 leaves?
(a) 26
(b) 1
(c) 5
(d) 30
(e) 4
Ans. (c)
Solution.
Five shoot apical meristems are likely to be present in a twig of a plant possessing 4 branches and 26 leaves.
Q.12. A piece of wood having no vessels (trachea) must belong to
(a) Teak
(b) Mango
(c) Pine
(d) Palm
Ans. (c)
Solution.
The presence of vessels is a characteristic feature of angiosperms.
Q.13. A plant tissue, when stained, showed the presence of hemicellulose and pectin in cell wall of its cells. The tissue represents
(a) Collenchyma
(b) Sclerenchyma
(c) Xylem
(d) Meristem
Ans. (a)
Solution.
A plant tissue, when stained, showed the presence of hemicellulose and pectin in cell wall of its cells. The tissue represents collenchyma.
Q.14. In conifers fibres are likely to be absent in
(a) Secondary phloem
(b) Secondary xylem
(c) Primary phloem
(d) Leaves
Ans. (b)
Solution.
In conifers fibres are likely to be absent in secondary xylem.
Q.15. When we peel the skin of a potato tuber, we remove
(a) Periderm
(b) Epidermis
(c) Cuticle
(d) Sapwood
Ans. (a)
Solution.
When we peel the skin of a potato tuber, we remove periderm.
Q.16. A vesselless piece of stem possessing prominent sieve tubes would belong to
(a) Pinus
(b) Eucalyptus
(c) Grass
(d) Trochodendron
Ans. (d)
Solution.
A vesselless piece of stem possessing prominent sieve tubes would belong to Trochodendron.
Q.17. Which one of the following cell types always divides by anticlinal cell division?
(a) Fusiform initial cells
(b) Root cap
(c) Protoderm
(d) Phellogen
Ans. (c)
Solution.
Protoderm cell always divides by anticlinal cell division.
Q.18. What is the fate of primary xylem in a dicot root showing extensive secondary growth?
(a) It is retained in the centre of the axis.
(b) It gets crushed.
(c) May or may not get crushed.
(d) It gets surrounded by primary phloem.
Ans. (a)
Solution.
The fate of primary xylem in a dicot root showing extensive secondary growth because it is retained in the centre of the axis.
VERY SHORT ANSWER TYPE QUESTIONS
Q.1. Product of photosynthesis is transported from the leaves to various parts of the plants and stored in some cell before being utilised. What are the cells/ tissues that store them?
Ans. Parenchyma
Q.2. Protoxylem is the first formed xylem. If the protoxylem lies next to phloem what kind of arrangement of xylem would you call it?
Ans. Exarch
Q.3. What is the function of phloem parenchyma?
Ans. The phloem parenchyma stores food material and other substances like resins, latex and mucilage.
Q.4. What is present on the surface of the leaves which helps the plant prevent loss of water but is absent in roots?
Ans. Cuticle is present on the surface of the leaves which helps the plant prevent loss of water but is absent in roots.
Q.5. What is the epidermal cell modification in plants which prevents water loss?
Ans. In grasses, certain adaxial epidermal cells along the veins modify themselves into large, empty, colourless cells. These are called bulliform cells or motor cells. Bulliform cells help in folding and unfolding of grass leaves.
When the bulliform cells in the leaves have absorbed water and are turgid, the leaf surface is exposed. When they are flaccid due to water stress, they make the leaves curl inwards (inrolling) to minimise water loss (transpiration).
Q.6. What part of the plant would show the following:
(a) Radial vascular bundle
(b) Polyarch xylem
(c) Well developed pith
Ans.
(a) Radial vascular bundle: Root
(b) Polyarch xylem: Monocot root
(c) Well developed pith: Dicot stem and monocot root
Q.7. What are the cells that make the leaves curl in plants during water stress?
Ans. Bulliform/motor cells
Q.8. What constitutes the cambial ring?
Ans. Interfascicular cambium + intrafascicular cambium.
Q.9. Give one basic functional difference between phellogen and phelloderm.
Ans. Phellogen is a couple of layers thick. It is made of narrow, thin-walled and nearly rectangular cells. Phellogen cuts off cells on both sides. The outer cells differentiate into cork or phellem while the inner cells differentiate into secondary cortex or phelloderm.
Q.10. Arrange the following in the sequence you would find them in a plant starting from the periphery—phellem, phellogen, phelloderm.
Ans. Phellem → phellogen → phelloderm.
Q.11. If one debarks a tree, what parts of the plant is being removed?
Ans. On debarking a tree, all tissue exterior to vascular cambium gets removed (i.e., periderm and 2° phloem).
Q.12. The cross-section of a plant material showed the following features when viewed under the microscope.
(a) The vascular bundles were radially arranged.
(b) Four xylem strands with exarch condition of protoxylem.
To which organ should it be assigned?
Ans. Dicot root
Q.13. What do hard wood and soft wood stand for?
Ans. Gymnosperm wood is called softwood due to absence of vessels (therefore it is called non-porous wood). Dicot angiospermic wood is called hardwood because it possess abundant vessels.
SHORT ANSWER TYPE QUESTIONS
Q.1. While eating peach or pear it is usually seen that some stone like structures get entangled in the teeth, what are these stone like structures called?
Ans. The structures that get entangled in the teeth while eating fruits like peach and pear are actually the stone cells or brachysclereids which are unbranched, short and isodiametric type of sclereids. These stone cells usually occur in groups and provide grit or stone like hardness that get entangled in the spaces between teeth.
Q.2. What is the commercial source of cork? How is it formed in the plant?
Ans. Commercial source of cork is oak (Quercus suber). As the stem continues to increase in girth due to the activity of vascular cambium, the outer cortical and epidermis layers get broken and need to be replaced to provide new protective cell layers. Hence, sooner or later, another meristematic tissue called cork cambium or phellogen develops, usually in the cortex region. Phellogen is a couple of layers thick. It is made of narrow, thin-walled and nearly rectangular cells. Phellogen cuts off cells on both sides. The outer cells differentiate into cork or phellem.
Q.3. Below is a list of plant fibres. From which part of the plant these are obtained
(a) Coir b. Hemp
(c) Cotton d. Jute
Ans.
(a) Coir—Mesocarp of coconut fruit (drupe)
(b) Hemp—Phloem or bast fibre
(c) Cotton—Epidermal hair of seed
(d) Jute—Phloem or bast fibre
Q.4. What are the characteristic differences found in the vascular tissue of gymnosperms and angiosperms?
Ans.
Q.5. Epidermal cells are often modified to perform specialized functions in plants. Name some of them and the function they perform.
Ans.
(i) Root hairs: The root hairs are unicellular elongations of the epidermal cells and help absorb water and minerals from the soil.
(ii) Stem hairs or trichomes: On the stem the epidermal hairs are called trichomes. The trichomes in the shoot system are usually multicellular.
They may be branched or unbranched and soft or stiff. They may even be secretory. The trichomes help in preventing water loss due to transpiration.
(iii) Bulliform cells: In grasses, certain adaxial epidermal cells along the veins modify themselves into large, empty, colourless cells. These are called bulliform cells. When the bulliform cells in the leaves have absorbed water and are turgid, the leaf surface is exposed. When they are flaccid due to water stress, they make the leaves curl inwards to minimise water loss.
Q.6. The lawn grass (Cynodon dactylon) needs to be mowed frequently to prevent its overgrowth. Which tissue is responsible for its rapid growth?
Ans. Intercalary meristem: The meristem which occurs between mature tissues is known as intercalary meristem. They occur in grasses and regenerate parts removed by the grazing herbivores.
Q.7. Plants require water for their survival. But when watered excessively, plants die. Discuss.
Ans. Irrigation without proper drainage of water leads to waterlogging in the soil. Besides affecting the crops, waterlogging draws salt to the surface of the soil. The salt then is deposited as a thin crust on the land surface or starts collecting at the roots of the plants. This increased salt content is inimical to the growth of crops and is extremely damaging to agriculture and plants may die.
Q.8. A transverse section of the trunk of a tree shows concentric rings which are known as growth rings. How are these rings formed? What is the significance of these rings?
Ans. The activity of cambium is under the control of many physiological and environmental factors. In temperate regions, the climatic conditions are not uniform through the year. In the spring season, cambium is very active and produces a large number of xylary elements having vessels with wider cavities. The wood formed during this season is called spring wood or early wood. In winter, the cambium is less active and forms fewer xylary elements that have narrow vessels, and this wood is called autumn wood or late wood.
The spring wood is lighter in colour and has a lower density whereas the autumn wood is darker and has a higher density. The two kinds of woods that appear as alternate concentric rings, constitute an annual ring. Annual rings seen in a cut stem give an estimate of the age of the tree.
Q.9. Trunks of some of the aged tree species appear to be composed of several fused trunks. Is it a physiological or anatomical abnormality? Explain in detail.
Ans. Trunks of some of the aged tree species appear to be composed of several fused trunks. It is an anatomical abnormality. It is due to the abnormal secondary growth.
Q.10. What is the difference between lenticels and stomata?
Ans. At certain regions, the phellogen cuts off closely arranged parenchymatous cells on the outer side instead of cork cells. These parenchymatous cells soon rupture the epidermis, forming a lensshaped openings called lenticels.
Q.11. Write the precise function of:
(a) Sieve tube
(b) Interfasicular cambium
(c) Collenchyma
(d) Aerenchyma
Ans.
(a) Sieve tube—Conduction of food
(b) Interfasicular cambium—Formation of vascular cambium
(c) Collenchyma—Mechanical support
(d) Aerenchyma—Provides buoyancy
Q.12. The stomatal pore is guarded by two kidney shaped guard cells. Name the epidermal cells surrounding the guard cells. How does a guard cell differ from an epidermal cell? Use a diagram to illustrate your answer.
Ans. Stomata are structures present in the epidermis of leaves. Stomata regulate the process of transpiration and gaseous exchange. Each stoma is composed of two beanshaped cells known as guard cells which enclose stomatal pore. The guard cells possess chloroplasts which are absent in other epidermal cells. Sometimes, a few epidermal cells, in the vicinity of the guard cells become specialised in their shape and size and are known as subsidiary ceils.
Q.13. Point out the differences in the anatomy of, leaf of peepal (Ficus religiosa) and maize (Zea mays). Draw the diagrams and label the differences.
Ans. Leaf of peepal (Ficus religiosa) is an example of dorsiventral leaf (dicot) and maize (Zea mays) is an example of isobilateral leaf (monocot).
Q.14. Palm is a monocotyledonous plant, yet it increases in girth. Why and how?
Ans. A palm tree is a monocotyledonous plant and like all other monocots the stems do not have primary cambium in the vascular bundles. However, with age, the tree grows in diameter, though slowly, as a result of the growth of the ground tissue. A secondary cambium may be formed in the hypodermal region of the stem. The later forms the conjunctive tissue and patches of meristematic cell. The activity of the meristematic cells result in the formation of secondary vascular bundles.
LONG ANSWER TYPE QUESTIONS
Q.1. The arrangement of ovules within the ovary is known as placentation. What does the term placenta refer to? Draw various types of placentations in the flower as seen in T.S. and V.S.
Ans. Placentation: The arrangement of ovules within the ovary is known as placentation. The placentation are of different types namely, marginal, axile, parietal, basal, central and free central. In marginal placentation, the placenta forms a ridge along the ventral suture of the ovary and the ovules are borne on this ridge forming two rows, as in pea. When the placenta is axial and the ovules are attached to it in a multilocular ovary, the placentation is said to be axile, as in china rose, tomato and lemon. In parietal placentation, the ovules develop on the inner wall of the ovary or on peripheral part. Ovary is one- chambered but it becomes two-chambered due to the formation of the false septum, e.g., mustard and Argemone. When the ovules are borne on central axis and septa are absent, as in Dianthus and Primrose the placentation is called free central. In basal placentation, the placenta develops at the base of ovary and a single ovule is attached to it, as in sunflower, marigold.
Q.2. Deciduous plants shed their leaves during summer or in autumn. This process of shedding of leaves is called abscission. Apart from physiological changes what anatomical mechanism is involved in the abscission of leaves.
Ans. Anatomical mechanism involved in the abscission of leaves:
(1) Structural: In deciduous trees, an abscission zone, also called a separation zone, is formed at the base of the petiole. It is composed of a top layer that has cells with weak walls, and a bottom layer that expands in the autumn, breaking the weak walls of the cells in the top layer. This allows the leaf to be shed.
(2) The loss of chlorophyll may also contribute to the abscission process.
(3) Hormonal: Abscisic acid to be the hormone that stimulates abscission (for which the hormone was named).
Q.3. Is Pinus an evergreen tree? Comment.
Ans. Yes, Pinus trees are evergreen, coniferous resinous trees. The leaves in gymnosperms are well-adapted to withstand extremes of temperature, humidity and wind. In conifers, the needle-like leaves reduce the surface area. Their thick cuticle and sunken stomata also help to reduce water loss. Unlike deciduous plants, Pinus do not shed their leaves so it is an evergreen tree.
Q.4. Assume that a pencil box held in your hand, represents a plant cell. In how many possible planes can it be cut? Indicate these cuts with the help of line drawings.
Ans. When any plane passing through the central axis of the plant cell divides the cell into two identical halves, it is called radial symmetry. If the plant cell can be divided into identical left and right halves in only one vertical plane, exhibit bilateral symmetry.
Q.5. Each of the following terms has some anatomical significance.
What do these terms mean? Explain with the help of line diagrams.
(a) Plasmodesmata
(b) Middle lamella
(c) Secondary wall
Ans.
(a) Plasmodesmata are the protoplasmic strands between adjacent plant cells. Plasmodesmata connections help in movement of substances between cells.
(b) The middle lamella is a layer mainly of calcium pectate which holds or glues the different neighbouring cells together. Middle lamella is made up of calcium pectate (mainly) and magnesium pectate.During ripening a fruit becomes soft and pulpy due to dissolution of middle lamella.
(c) The cell wall of a young plant cell, the primary wall is capable of growth, which gradually diminishes as the cell matures and the secondary wall is formed on the inner (towards membrane) side of the cell. Secondary wall may have the deposition of lignin. Secondary wall help in the differentiation of the cell.
Q.6. Distinguish between the following:
(a) Exarch and endarch
(b) Stele and vascular bundle
(c) Protoxylem and metaxylem
(d) Interfasicular cambium and intrafasicular cambium
(e) Open and closed vascular bundles
(f) Stem hair and root hair
Ans.
(a) Exarch and endarch condition of protoxylem: In stems, the protoxylem lies towards the centre (pith) and the metaxylem lies towards the periphery of the organ. This type of primary xylem is called endarch. In roots, the protoxylem lies towards periphery and metaxylem lies towards the centre. Such arrangement of primary xylem is called exarch.
(b) Stele and vascular bundle: All tissues on the innerside of the endodermis such as pericycle, vascular bundles and pith constitute the stele. The vascular system consists of complex tissues, the phloem and the xylem. The xylem and phloem together constitute vascular bundles.
(c) Protoxylem and metaxylem: Primary xylem is of two types— protoxylem and metaxylem. The first formed primary xylem elements are called protoxylem and the later formed primary xylem is called metaxylem.
(d) Interfasicular cambium and intrafasicular cambium; In dicot stems, the cells of cambium present between primary xylem and primary phloem is the intrafascicular cambium. The cells of medullary rays, adjoining these intrafascicular cambium become meristematic and form the interfascicular cambium.
(e) Open and closed vascular bundles: In dicotyledonous stems, cambium is present between phloem and xylem. Such vascular bundles because of the presence of cambium possess the ability to form secondary xylem and phloem tissues, and hence are called open vascular bundles. In the monocotyledons, the vascular bundles have no cambium present in them. Hence, since they do not form secondary tissues they are referred to as closed.
(f) Stem hair and root hair: The root hairs are unicellular elongations of the epidermal cells and help absorb water and minerals from the soil. On the stem the epidermal hairs are called trichomes or stem hairs. The trichomes in the shoot system are usually multicellular. They may be branched or unbranched and soft or stiff. They may even be secretory. The trichomes help in preventing water loss due to transpiration.
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