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Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6

A tissue may be defined as, “a group of similar or dissimilar cells having common origin and performing a specific functions.”
Tissues are mainly divided into three categories:
(A) Meristematic tissues or Meristems
(B) Permanent tissue
(C) Secretory tissue

Meristematic Tissues or Meristem
(1) They contain immature and young cells and are capable of repeated divisions.
(2) Intercellular spaces are not present in meristematic tissue.
(3) They contain a homogeneous thin wall.
(4) They contain large nuclei associated with abundant cytoplasm.
(5) They are metabolically very active but they do not store food material.
(6) Only proto-plastids are present instead of plastids, chloroplast absent.
(7) Dense cytoplasm is present which contains several premature mitochondria.
(8) Vacuoles are absent.
(9) Meristematic cells are isodiametric in shape.

Types of meristems
The meristem may be classified on the basis of their mode of origin, position or function:

(i) According to origin and development: On the basis of origin, meristematic tissues are of three types:
(a) Promeristem or Primordial meristem: The promeristem originates from embryo and, therefore, called primordial or embryonic meristem. It is present in the regions where an organ or a part of plant body is initiated.
(b) Primary meristem: A primary meristem originates from promeristem and retains its meristematic activity. It is located in the apices of roots, stems and the leaf primordia.
(c) Secondary Meristem: They always arise in permanent tissues and have no typical promeristem. Some living permanent cells may regain the meristematic nature.

(ii) According to position: On the basis of their position in the plant body meristems are classified into three categories:
Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6(a) Apical meristem: This meristem is located at the growing apices of main and lateral shoots and roots. These cells are responsible for linear growth of an organ.
(b) Intercalary meristem: These are the portions of apical meristems which are separated from the apex during the growth of axis and formation of permanent tissues. It is present mostly at the base of node (e.g., Mentha viridis-Mint), base of internode (e.g., stem of many monocots viz., Wheatgrass, Pteridophytes like Equisetum) or at the base of the leaf (e.g., Pinus).
(c) Lateral meristem: These meristem occur laterally in the axis, parallel to the sides of stems and roots. This meristem consists of initials which divide mainly in one plane (periclinal) and result increase in the diameter of an organ.

(iii) According to function: Haberlandt in 1890 classified the primary meristem at the apex of stem under the following three types:
(a) Protoderm: It is the outermost layer of the apical meristem which develops into the epidermis or epidermal tissue system.
(b) Procambium: It occurs inside the protoderm. Some of the cells of young growing region which by their elongation and differentiation give rise to primary vascular tissue constitute the procambium.
(c) Ground meristem: It constitutes the major part of the apical meristem develops ground tissue like hypodermis, cortex, endodermis, pericycle, pith and medullary rays.

(iv) According to plane of cell division: On the basis of their plane of cell division meristems are classified into three categories:
(a) Mass meristem: The cells divide anticlinally in all planes, so mass of cells is formed. e.g., formation of spores, cortex, pith, endosperm.

(b) Plate meristem: The cells divide anticlinally in two planes, so plate like area increased. e.g., formation of epidermis and lamina of leaves.
(c) Rib or File meristem: The cells divide anticlinally in one plane, so row or column of cells is formed. e.g,, formation of lateral root.

Permanent Tissues
Permanent tissues are made up of mature cells which have lost the capacity to divide and have attained a permanent shape, size and function due to division and differentiation in meristematic tissues. The cells of these tissues are either living or dead, thin-walled or thick-walled. Permanent tissues are of three types:
(1) Simple tissues: Simple tissues are a group of cells which are all alike in origin, form and function. They are further grouped under three categories:
(i) Parenchyma: Parenchyma is most simple and unspecialized tissue which is concerned mainly with the vegetative activities of the plant.
(ii) Collenchyma: The term collenchyma was coined by Schleiden (1839). It is the tissue of primary body.
Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6
The cells of this tissue contain protoplasm and are living.
The cell walls are thickened at the corners and are made up of cellulose, hemicellulose and pectin.
(iii) Sclerenchyma: It was discovered and coined by Mettenius (1805).
Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6The main feature of sclerenchyma are :
It consist of thick-walled dead cells.
The cells vary in shape, size and origin.

Special or secretory tissues
These tissue perform special function in plants, e.g., secretion of resins gum, oil and latex.
These tissues are of two types:
(1) Laticiferous tissue
(2) Glandular tissue
(1) Laticiferous tissues: They are made up of thin walled, elongated, branched and multinucleate (coenocytic) structures that contain colourless, milky or yellow coloured juice called latex. These occur irregularly distributed in the mass of parenchymatous cells. latex is contained inside the laticiferous tissue which is of two types:
Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6(i) Latex cells:
(a) A laticiferous cell is a very highly branched cell with long slender processes modifying in all directions in the ground tissue of the organ.
(b) Plants having such tissues are called simple or non-articulated laticifers. e.g., Calotropis (Asclepiadaceae) Nerium, Vinca (Apocyanaceae), Euphorbia (Euphorbiaceae), Ficus (Moraceae).
(ii) Latex vessels:
(a) They are formed due to fusion of cells and form network like structure in all directions.
(b) Plants having such tissues are called compound or articulated laticifers. e.g., Argemone, Papaver (Papaveraceae), Sonchus (Compositae), Hevea, Manihot (Euphorbiaceae).
(2) Glandular tissue: This is a highly specialized tissue consisting of glands, discharging diverse functions, including  secretory and excretory. Glands may be external or internal.
(i) External glands: They are generally occur on the epidermis of stem and leaves as glandular hair in Plumbago and Boerhaavia.
(ii) Internal glands: These are present internally and are of several types. e.g., oil glands in Citrus and Eucalyptus, resinous ducts in Pinus.

The Tissue System
A collection of tissues performing the same general function is known as a “Tissue System''. According to Sachs (1975) there are three major tissue systems in plants as follows:
(1) Epidermal tissue system
(2) Ground or fundamental tissue system
(3) Vascular tissue system
(1) Epidermal tissue system: The tissues of this system originate from the outermost layer of apical meristem.
(i) Epidermis: Epidermis is composed of single layer cells.
(ii) Cuticle and Wax: In aerial parts, epidermis is covered by cuticle. The epidermal cells secrete a waxy substance called cutin, which forms a layer of variable thickness (the cuticle) within and on the outer surface of its all walls. it helps in reducing the loss of water by evaporation.
Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6(iii) Stomata: Stomata are minute apertures in the epidermis. Each aperture is bounded by two kidney shaped cells, called guard cells. Stomata are absent in roots.

Depending upon distribution of stomata, the leaves are:
(a) Apple-mulberry type: e.g. Oxalis, Mulberry, Apple.
Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6(b) Potato type: e.g. Bifacial (dorsiventral leaves of pea, bean, tomato).
Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6(c) Oat type: e.g. Suberect (isobilateral) leaves of most grasses and cereals (monocotyledons).
Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6(d) Nymphaea type: e.g. Floating leaves of Nelumbo, Nymphaea, water lily.
Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6(e) Potamogeton type: e.g. Submerged plants like Hydrilla, Vallisneria, Potamogeton.
Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6(iv) Trichomes: These are epidermal outgrowths present temporarily or permanently on almost all plant parts.
Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6(v) Root hairs: They are enlargements of special epiblema cells called trichoblasts and occurs in a particular zone of young root called root hair zone.
(2) Ground or Fundamental tissue system: Ground tissue system includes all the tissues of plant body except epidermal tissue system and vascular tissues. It forms the bulk of body. This tissue system mainly originates from ground meristem. The ground tissues constitute the following parts:
(i) Cortex: It lies between epidermis and the pericycle. The cortex is distinct in dicotyledons but not in monocotyledons where there is no clear demarcation between cortex and pith. It is further differentiated into:
(a) Hypodermis: It is collenchymatous in dicot stem and sclerenchymatous in monocot stem. It provides strength.
(b) General cortex: It consists of parenchymatous cells. Its main function is storage of food.
(c) Endodermis (Starch sheath): It is mostly single layered and is made up of parenchymatous barrel shaped compactly arranged cells.
(ii) Pericycle: It is a single layered or multi layer cylinder of thin-walled or thick-walled cells present between the endodermis and vascular tissues. In some cases, the pericycle is made up of many layers of sclerenchymatous cells (Cucurbita stem) or in the form of alternating bands of thin-walled and thick-walled cells (Sunflower stem).
(iii) Pith or Medulla: It occupies the central part in dicot stem, and monocot root. It is mostly made up of parenchymatous cells. in dicot root pith is completely obliterated by the metaxylem elements. In dicot stem the pith cells between the vascular bundles become radially elongated and known as primary medullary rays or pith rays.
(3) Vascular tissue system: The central cylinder of the shoot or root surrounded by cortex is called stele. The varying number of vascular bundles formed inside the stele constitute vascular tissue system. Xylem, phloem and cambium are the major parts of the vascular bundle. Vascular bundle may be of following types:
(i) Radial: The xylem and phloem strands alternate with each other separated by parenchymatous cells. such kinds of vascular bundles are called radial and found mainly in roots.
(ii) Conjoint: A vascular bundle having both xylem and phloem together, is called conjoint. Normally the xylem and phloem occur in the same radius. They occur in stems. Such vascular bundles are of two types:
(a) Collateral: A vascular bundle in which the phloem lies towards outerside and xylem towards inner side, is called collateral, e.g., Sunflower.
(b) Bicollateral: A vascular bundle having the phloem strands on both outer and inner side of xylem, is called bicollateral. e.g., Cucurbita.

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FAQs on Anatomy of Flowering Plants Class 11 Notes Biology Chapter 6

1. What is the anatomy of flowering plants?
Ans. The anatomy of flowering plants refers to the study of their internal structure and organization. It involves the examination of various plant tissues, such as the root, stem, leaf, and flower, to understand their functions and relationships within the plant.
2. What are the different types of plant tissues?
Ans. There are three main types of plant tissues: dermal, ground, and vascular tissues. Dermal tissues are found on the outer surfaces of the plant and provide protection. Ground tissues are responsible for photosynthesis, storage, and support. Vascular tissues transport water, minerals, and nutrients throughout the plant.
3. How does the root system of a flowering plant function?
Ans. The root system of a flowering plant has two main functions. Firstly, it anchors the plant into the ground, providing stability. Secondly, it absorbs water and minerals from the soil, which are then transported to other parts of the plant. Roots also store food reserves for the plant.
4. What is the role of the stem in a flowering plant?
Ans. The stem of a flowering plant serves multiple functions. It provides support to the plant and holds the leaves, flowers, and fruits in an elevated position for better exposure to sunlight. The stem also transports water, minerals, and food between the roots and leaves through the vascular tissues.
5. What is the purpose of flowers in flowering plants?
Ans. Flowers are the reproductive structures of flowering plants. They are responsible for the production of seeds and fruits. Flowers attract pollinators, such as insects, birds, or bats, through their colorful petals and fragrances. After pollination, flowers develop into fruits that protect and disperse the seeds for the plant's reproduction.
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