Morphology of Flowering Plants -II

INFLORESCENCE

Arrangement of flower on floral axis is called inflorescence.

Racemose

In this type of inflorescence, the main axis continues to grow and does not terminate in a flower and give off flower laterally in acropetal manner where old flowers are arranged toward base and young flowers are at tip. When peduncle is broad then flowers are centripetally arranged.

This is of following different types:

Raceme – When peduncle (main axis) is elongated and flowers are pedicellate. e.g. Radish, characteristic feature of cruciferae family When peduncle is branched and each branch bear pedicellated flowers like racemose and are arranged in acropetal manner known as compound raceme or panicle. e.g. Gulmohar, Neem.
Spike – In it peduncle is elongated but flowers are bisexual and sessile. e.g. Achyranthes When peduncle is branched and each branch bear spike, like inflorescence then the small branch having flower is called spikelet and this arrangement is called as spike of spikelet. Characteristic inflorescence of family gramineae.
Catkin – In it peduncle is thin, long and weak, and flowers are sessile and unisexual. Peduncle is pendulus. e.g. mulberry, betula, oak.
Spadix – In it peduncle is thick, long and fleshy and have small sessile and unisexual male and female flowers covered with one or more green or colorful bracts known as spathe. e.g. Colocasia, Maize, Aroids, Palms.
Corymb – In it peduncle is short and all flowers are present at same level because the lower flower has much long pedicel than the upper one e.g. Candytuft (Iberis amara).
If in this type of inflorescence peduncle is branched, then each branch has flower cluster then this type of inflorescence is called compound corymb. e.g. Cauliflower, * In mustard corymbose raceme type of inflorescence is present
Umbel – An inflorescence in which the flower stalks of different flowers are of equal length, arise from the same point. At the base of flowers stalks, there is whorl of bracts forming the involucre. e.g. Centella
- If in this type of inflorescence, peduncle is branched then each branch has flower cluster then this type of inflorescence is called compound umbel.eg. Coriander, Foeniculum, Cuminum.
- Characteristic feature of umbeliferae.
- Scapigerous umbel is found in onion
Capitulum / Racemose head – In it the growth of peduncle is retarded and it became broad, flattened concave or convex. On it small flowers are found. These flowers are called floret. If all the flower of capitulum are same, then it is called homogamous. If two different type of floret, ray floret and disc floret are present in same inflorescence than it is known as heterogamous. In this type of inflorescence florets may be unisexual, bisexual and sterile. This inflorescence is surrounded by one or more involucre. It is most advanced type of inflorescence. e.g. Sunflower, Zinnia, Marigold, Cosmos.

Characteristic feature of Asteraceae family.

Cymose

In this type of inflorescence, the peduncle terminates in a flower. In it the older flowers are present at tip and young buds are arranged towards base. This arrangement is called basipetal succession.

It is of following types.

Uniparous cyme / Monochasial cyme - The peduncle ending in a flower producing lateral branch at a time of ending in flower. It is of two types -
- Helicoid cyme – When all lateral branches developed on the same side on peduncle then it is called helicoid cyme. e.g. Heliotropium, Saraca, Atropa, Datura.
- Scorpioid cyme – In it the lateral branch is alternately develop on left and right side. e.g. Bignonia,
- Riphidium – In monochasial cyme all flowers are borne on same plane. e.g. Solanum nigrum
Dichasial or biparous cyme – In it peduncle ends in a flower, from the basal part of peduncle two lateral branches arise, which also end in a flower, now this same arrangement occurs on these lateral branches. e.g. Bougainvillea, Jasmine, Teak, Mirabilis, Dianthus, Nyctanthes.
Multiparous cyme / polychasial – In it peduncle ends in a flower and from the base of it many lateral branches arise which also terminates in flower, this arrangement now also occurs on these lateral branches. e.g. Calotropis (Madar), Nerium, Asclepias, Hamelia.

Special Type of Inflorescence

Cyathium – The bracts or the involucre become fused to form a cup shaped structure on the margin. In the central part of cup shaped structure a single female flower is found, which mature earlier. Due to the growth of pedicel this come out from the cup shaped structure. Female flower is surrounded by large no. of small male flowers. The male flower, which lie toward center mature earlier than the flower which are towards periphery. This inflorescence is found in Euphorbiaceae family like Euphorbia, Poinsettia, Pedilanthus.
Verticillaster - A cluster of sub sessile or sessile 3-9 flowers born on a dichasial cyme ending in monochasial cyme (Scorpioid) in the form of condensed whorl on either side of the node. The opposite clusters give the appearance of whorl or verticel due to overcrowding. The verticels are further arranged in a racemose manner e.g. Ocimum (Tulsi), Salvia. Characteristic inflorescence of labiateae family.
Hypanthodium – In it peduncle is modified in narrow cup like structure. At the base of cup female flowers develop while towards mouth male flower develops. All three types of flowers are present in this inflorescence. e.g. Banyan, Peepal, Ficus species.
Coenanthium: In Dorsitenia, the receptacle becomes saucer shaped and its margins are slightly curved. Arrangement of florets are like Hypanthodium.
Mixed inflorescence – Sometimes flowers are arranged in both racemose and cymose manner on same peduncle called mixed inflorescence.
Mixed spadix – Banana
Cymose raceme or thyrsus – Grapes.

FLOWER

Flower is defined as highly condensed and modified reproductive shoot. The part from where flower arise is called bract. Flower has short or long flower stalk which is called pedicel. The upper part of pedicel is swollen, spherical shaped or conical which is called thalamus / Receptacle. Floral leaves are present on it. In a flower, there are 4 type of floral leaves are found.

Some Words Related to Flower

Complete Flower – When calyx, corolla, androecium and gynoecium are present.
Incomplete Flower – Flower with one of the four whorls missing.
Bisexual Flower – Both gynoecium and androecium present in the same flower.
Unisexual Flower – Androecium (staminate flower) or gynoecium (Pistillate flower) any one of them are present in the flower.
Monoecious Plant – When both male and female flowers are present on the same plant. e.g. Cocos, Ricinus, Colocasia, Zea, Acalypha.
Dioecious Plant – When male and female flowers are present on separate plant e.g. Mulberry, Papaya.
Polygamous Plant – When unisexual (male or female), bisexual and neuter flowers are present on the same plant e.g. Mango, Polygonum.
Monocarpic Plant – The plant which produces flowers and fruits only once in life e.g. Pea, Mustard, Bamboo, Agave.
Polycarpic Plant – The plants which produces flowers and fruits many times in life, e.g. Pear, Mango,
Achlamydeous Flower – Flowers are naked without sepals and petals e.g. piperaceae.
Monochlamydeous Flower: Only one accessory whorl is present (Perianth) e.g. Polygonaceae, Liliaceae.
Dichlamydeous Flower: Both accessory whorls present in flower.
Hemicyclic or Spirocyclic Flower: Some of the floral parts are in circles and some are spirally arranged. e.g. Ranunculaceae.
Cauliflory: Production of flowers on old stem from dormant buds e.g. Artrocarpus, Ficus.

Symmetry of Flower

If the floral leaves are cyclic arranged in a flower, then it is called cyclic flower. If floral leaves are spirally arranged, then it is called spiral flower. Floral symmetry is of three type -

Actinomorphic / Radial / Regular – When flower is divided by any vertical plane into two equal halves, then it is called actinomorphic flower e.g. Mustard, China rose, Datura, Chilli.
Zygomorphic / Bilateral – When the flower is divided into two equal halves only by one vertical plane, then it is called zygomorphic flower e.g. Pea, Bean, Gulmohur, Cassia. Ocimum (Tulsi)
- But if it is divided into two equal halves, by lateral plane then it is called laterally zygomorphic.
Asymmetrical / irregular – When the flower cannot be divided into two equal halves from any plane, then it is called asymmetrical flower. e.g. Canna.

Internodal elongation in flower:

Anthophore – Internode between calyx and corolla is called anthophore. e.g. Silane
Androphore – Internode between corolla and androecium is called androphore. e.g. Passiflora
Gynophore – Internode between androecium and gynoecium is called gynophore. e.g. Capparis.
Gynandrophore or Androgynophore – When both androphore and gynophore both conditions are found in same flower then this condition is called gynandrophore or androgynophore. e.g. Cleome gynandra.
Carpophore – Elongation of thalamus beyond carpels. e.g. coriandrum

Note: - Part of flower which lies near to mother axis is posterior part while the part which is far from mother axis is anterior part of flower.

Insertion of Floral Leaves

Hypogynous condition – When petals, sepals and stamens are situated below the ovary, the flower is called hypogynous and in this condition ovary will be superior. e.g. mustard, Chinarose, Brinjal.
Perigynous condition – In it thalamus grow upwardly and form a cup shaped structure. Gynoecium is situated in the centre and other parts of flower are located on the rim of the thalamus almost at the same level. It is called perigynous. The ovary here is said to be half inferior e.g. plum, peach, rose.
Epigynous condition – The margin of thalamus grows upward enclosing the ovary completely and getting fused with it, the other parts of flower arises above the ovary, the ovary is said to be inferior and this condition is known as epigynous e.g. Guava, Cucumber and ray florets of sun flower

Notes

Bracts: Bracts are specialized leaves present in axis of flower.
Bracteate – The flower which have bract is called bracteate flower.
Involucre – The whorl of bract surrounding peduncle is called involucre.
Involucel – Group of bracteole is called involucel.
Spathe – In flowers when large bract completely encloses whole inflorescence, then it is called spathe. e.g. Banana, Maize.
Petaloid bract – When the size of bract of flower is greater than size of flower and these are of various coloured then it is called petaloid bract. e.g. Bougainvillea.
Glumes – Small, dry, scaly bracts are called Glumes. e.g. Wheat, Grass.

Calyx

The outermost whorl of flower is called calyx. Each member of this whorl is called sepal when all the sepals are free from each other, then it is called poly-sepalous condition e.g. Mustard, Radish. When the sepals are fused each other, then it is called gamosepalous condition e.g. Cotton, Datura, Brinjal.
In calyx of Mussaenda, one of the sepal enlarge and form a leaf like structure. It may be white or brightly coloured. It attracts the insects and thus act as advertisement flag.
In Trapa, calyx is modified into spines and helps in protection of fruit.
In Argemone spines are present on the surface of sepal which protect the flower bud.
In larkspur and Balsum, the posterior part of sepal is modified into a narrow tube. This structure is called sepal spur. Nectar is stored in it for insect attraction.
In asteraceae family, sepals are modified into hairy structure. It is called pappus. The pappus is a modified calyx and helps in dispersal of fruit.

DURATION OF SEPALS

Caducous – Sepals fall just at the time of opening of flower bud. e.g. Poppy.
Deciduous – Sepals fall after pollination e.g. Mustard
Persistant – If sepals do not fall and remain attached to fruit. e.g. Tomato, Capsicum, Brinjal, Cotton, Datura.
Sometime below calyx, a whorl like sepals is found which is called epicalyx. e.g. Malvaceae family

Corolla

The second whorl of flower is called corolla and each member of it is called Petals. When the shape and size of petals are similar then it is called symmetrical while when they are not similar then they are asymmetrical. When all the petals are free, then it is called polypetalous while when petals are fused, then it is called gamopetalous.

Forms of Corolla -

Polypetalous

Cruciform – 4 petals are present in it. The lower narrow part of petal is called claw while the outer broad part is called limb. These petals are arranged crosswise. e.g. Radish, Mustard.
Caryophyllaceous – It consists of 5 petals the claw of petals is short and the limb of petals from right angle to the claw e.g. Dianthus.
Rosaceous – It consist of 5 or more petals. Claws are absent in it and limbs are spread regularly outwards. e.g. Rose, Coconut.

Gamopetalous

Campanulate – Five petals are arranged like bell. e.g. Tobacco, Raspberry, Campanula.
Funnel shaped or infundibuliform – Funnel like petals arrangement e.g. Datura, Railway creeper.
Tubular – Petals are like tube e.g. Disc florets of sunflower.

Zygomorphic Polypetalous Corolla-

Papilionaceous – Five petals are present. Its posterior petal is largest and is known as standard or vexillum.
Vexillum covers two lateral petals which are called as wings and the innermost basal petals are united to form a keel or carina. Both lateral parts cover the keel. e.g. Pea, Gram, Arher

Zygomorphic Gamopetalous Corolla-

Bilabiate – The petal of gamopetalous corolla is divided into two lips. The place between two lips is called corolla mouth. e.g. Ocimum, Salvia.
Personate – In this case the corolla is bilabiate but the two lips are near to each other e.g. Antirrhinum
Ligulate – The upper part of corolla is long, flattened which is attached with short narrow tube. e.g. Ray florets of sunflower.

AESTIVATION -

The mode of arrangement of sepals or petals in floral bud with respect to the other members of the same whorl is known as aestivation. It is of following types -

Valvate – When the petal of a whorl lie adjacent to each other petal and just touches it. e.g. Calotropis, Custard-apple, Mustard.
Twisted – In it one part of a petal covers adjacent petals and the other part is covered by posterior petal. One margin of the petal overlaps that of the next one, and the other margin is overlapped by the third one. e.g. Cotton, Ladyfinger, Chinarose
Imbricate – When both margin of the one petal are covered by the others two petals and both margin of another one, covers other, Rest are arranged in twisted manner.

It is of two types -

Ascending imbricate – The posterior petal is innermost i.e., it’s both margins are overlapped. e.g. Cassia, Bauhinia, Gulmohur etc.
Vexillary or Descending imbricate – The anterior petal is innermost and posterior petal is outermost & largest. e.g. Pea, Bean.
Quincuncial – It is a modification of imbricate type. Out of the five petals, two are completely internal, two completely external and in the remaining petal, one margin is internal and the other margin is external. e.g. Murraya, Ranunculus.

PERIANTH

When there is no distinction between calyx and corolla the whorl is described as perianth.
Individual perianth segments are called Tepals. Green tepals are called sepaloid and coloured tepals are called petaloid. Tepals are free (polytepalous) or fused (gamotepalous). e.g. Liliaceae and Graminae family

Androecium

It constitutes the third whorl of the flower and is made up of one or more stamens. Each stamen consists of filament, anther and connective. Each anther is usually bilobed and each lobe has two chambers the pollen sac. The pollen grains are produced in pollen sac.

Attachment of filament to anther lobe:

The attachment of filament to another lobe is of 4 type -

Adnate – Filament runs through the whole length of the anther from the base to the apex. e.g. Michelia (Champa), Magnolia
Basifixed – Filament is attached to anther by its base. e.g. Datura, Radish, Mustard.
Dorsifixed – The filament is attached at the centre to the back of the anther. e.g. Passion flower
Versatile – Filament attached to the back of the anther at a point only, thus the anther can swing freely. e.g. Wheat, grass, maize.

Cohesion of stamens:

When the floral parts of similar whorl are fused, then it is called cohesion. When the stamens of an androecium are free from one another, it is called polyandrous condition.

Adelphous: when stamens are united by their filament only, it is called adelphous. It is of following types –
Monoadelphous – When all the filaments are united into a single bundle but anthers are free from each other. In this type of cohesion, a tube is formed around the gynoecium which is called staminal tube e.g. Cotton, Hollyhock, Ladyfinger.
Diadelphous – When the filaments are united in two bundles but the anther remains free e.g. Gram, Pea, Bean
In these plants from 10 stamens, 9 stamens are arranged in bundle while 1 remains free.
Polyadelphous – When filaments are united into more than two bundles. e.g. Citrus, Castor.
Synandrous – When anthers as well as filaments of stamens are united through their whole length. e.g. Colocasia, Alocasia, Momordica, Cucurbitaceae family
Syngenesious – In it only anthers are united in bundle but filaments remain free e.g. Compositae family

Adhesion of stamens:

When the stamens are attached to other parts of flower, then it is called adhesion of stamens.

Epipetalous – When stamens are attached to petals. e.g. Brinjal, Datura, Tobacco, Sunflower, Potato.
Epiphyllous – When stamens are attached to tepals. e.g. Onion, Lily.
Gynandrous – When stamens are attached to gynoecium either throughout their whole length or by their anther e.g. Calotropis.

Length of stamens:

Didynamous – When four stamens are present, out of them two are long and two are short, then it is called didynamous. e.g. Labiatae family.
Tetradynamous – When there are six stamens and they are arranged in two whorls. In outer whorl, there are two short stamens while in inner whorl, there are four long stamens, this condition is called tetradynamous. e.g. Cruciferae family.
Inserted – When the stamens are smaller than corolla. e.g. Datura
Exserted – Stamens are longer than corolla and are radially outward. e.g. Gulmohar.
Diplostemonous – The stamens are double the number of petals and present in two whorls. The outer whorl of stamens is alternating with petals (alternipetalous), while inner whorl is opposite to petals (antipetalous). e.g. Liliaceae family.
Obdiplostemonous – It is reverse of diplostemonous. The outer whorl of stamen is opposite to petals, while inner whorl of stamen is alternating with petals. e.g. Caryophyllaceae.
Isostemonous or Haplostemonous – In such type of condition stamens are present in single whorls. No. of stamens is equal to no. of sepals and petals and generally whorl of stamens is alternating with petals.
Heterostemonous – Stamens are of different length in some flowers.
Staminodes – When stamens are without pollen grains & remain sterile throughout life are called staminodes e.g. Salvia verbascum.

Gynoecium (Pistil)

It is the fourth and second essential whorl of the flower. It is female part of the flower comprising of the inner whorl of megasporophylls in the form of carpels bearing ovules. It consists of ovary, style and stigma. Ovary is the enlarged basal part, on which lies the elongated tube the style, the style connects the ovary to the stigma. The stigma is usually at the tip of the style and is receptive surface for pollen grains. The gynoecium may be monocarpellary or multicarpellary.
If only one carpel is present in gynoecium this condition is called monocarpellary.
If more than one carpel is present in gynoecium this condition is called polycarpellary.
If all the carpels in polycarpellary / multicarpellary condition are free, then condition is called apocarpous.
If all the carpels are fused together, then condition is called syncarpous.

COHESION OF CARPEL

In syncarpous gynoecium four types of cohesion are found
When ovaries are fused, but stigma and style are separated with each other, e.g. Dianthus, Plumbago
Ovary and style are fused, but stigma is not fused. Malvaceae family. Hibiscus rosasinensis, cotton.
When stigma is fused but the ovary and style are free. e.g. Calotropis, Cassia fistula, Nerium.
Carpels are completely fused. This condition is found in max. flowers, e.g. Mustard, Radish, Tomato.

PLACENTATION

The ovules are attached on ovary walls on one or more cushion called placenta. The arrangement of ovule within ovary wall is known as placentation.

It is of following types:

Marginal: Marginal placentation is found in unilocular ovary. The placenta forms a ridge along the ventral suture of the ovary and the ovules are borne on this ridge forming two rows. e.g. Leguminosae.
Parietal: This type of placentation is found in unilocular syncarpous ovary. In it the ovule develops on the inner wall of the ovary or on peripheral part. Ovary become bi or multilocular due to formation a false septum e.g. Cucurbita, Argemone, and Cruciferae family (Mustard)
Axile: It is found in multicarpellary syncarpous gynoecium. The fusion margin of carpels grown inward and meet in the centre of the ovary. Thus, an axis forms in the centre of ovary, thus ovary becomes multichambered. The ovules are born at the central axis. Number of these chambers are equal to the number of carpel e.g. Potato, China rose, Onion, Lemon, Orange, Tomato.
Free central: This type of placentation is found in syncarpous gynoecium. In it, the ovary is unilocular and the ovules are borne on the axis in the centre of the ovary. septum is absent in ovary. Placentation is axile in beginning. After sometimes walls of chamber destroy and only ovulated central axis left. e.g. Primrose, Dianthus (Caryophyllaceae)
Superficial – This type of placentation is found in multicarpellary syncarpous gynoecium. The ovules are attached on the walls of locule e.g. Nymphea (Water lily)
Basal: The ovary is unilocular and a single ovule is borne at the base of ovary. e.g. Marigold, Sunflower (Asteraceae family).

Fruit

Fertilized and ripened ovary is fruit. A Fruit consist of

(i)Pericarp (fruit wall)

(ii)seed.

The seeds are protected inside fruit. But in some fruits. seeds are not found like in grapes, banana and such type of fruits are seedless fruit.

If a fruit is formed without fertilization of the ovary it is known as parthenocarpic fruit.

Pericarp: After ripening, the ovary wall change into pericarp. This pericarp may by thick and fleshy or thick and hard or thin and soft.
Pericarp is differentiated in 3 layers
- Epicarp: - It is the outermost layer, which is also called rind
- Mesocarp: - It is the middle layer.
- Endocarp: It forms the innermost layer.

TRUE FRUIT: When the fruit is developed only from the ovary, the fruit is called as true fruit. e.g. Mango, Coconut, Zizyphus

FALSE FRUIT OR PSEUDOCARP: In some fruits, in place of ovary, some other parts of flower like, inflorescence, calyx are modified to form a part of fruit. These types of fruit are called false fruits. e.g. Apple, Strawberry, Pear.

CLASSIFICATION OF FRUIT

Fruits are divided in three groups- Simple, Aggregate& Composite

SIMPLE FRUIT: -

These fruits develop from monocarpellary ovary or multicarpellary syncarpous ovary. Only one fruit is formed by the gynoecium. Simple fruits are of two types –

Fleshy fruit, Dry fruit

Fleshy Fruit: - These fruits develop from superior or inferior syncarpous gynoecium. These may be unilocular or multilocular. These fruits are indehiscent. Dispersal of seeds occur after pericarp is destroyed.
Fleshy fruits are of following types:
- Drupe fruit: - These fruits develops from mono or multicarpellary, syncarpous, superior ovary. In these fruits endocarp is hard and stony so these fruits are also called stony fruits. e.g. Mango, coconut almond, Peach walnut, plum. Brachysclereids are present in endocarp.
- In mango, edible fleshy part is Mesocarp and the part where seed is protected is called as endocarp. In ber, epicarp and mesocarp both are edible part.
- The rind of Almond and walnut are endocarp and their edible part is seed.
- In coconut epicarp is hard and thin while mesocarp is thick and consist of hard fibers the endocarp is hard and seed is protected in it. Endosperm is edible in coconut.
Berry: These fruits develop from mono or multicarpellary syncarpous ovary. Ovary may be superior or inferior, Placentation is axile or parietal. In these epicarp is thin and seeds are embedded in fleshy part. Initially seeds are attached with placenta of fruit but after maturation these seeds are detached with placenta and are spread randomly in fleshy part.
Plants with superior ovary = Tomato, Grapes, Brinjal.
Plants with inferior ovary = Guava, Banana
Date palm is one seeded berry. In it pericarp is divided into epicarp, mesocarp and endocarp.
Epicarp is thin and soft while mesocarp is thick and fleshy and endocarp is thin like a membrane. Which is attached with seed.
Arecanut is one seeded fibrous fruit berry. When its thick fibrous layer is removed then seed comes out which is hard.
Pepo - These fruits develops from tricarpellary, syncarpous and inferior ovary. This fruit is unilocular and have parietal placentation. These fruits are fleshy and spongy. sometime fruits are bitter in taste due to presence of tetracyclic triterpene in flashy pulp. e.g. fruits of cucurbitaceae family.
Pome - This fruit develops from bi or multicarpellary syncarpous inferior ovary. The rind and fleshy pulp are made up of thalamus. The main part of ovary is hard and dry and remain inside the fruit. Seeds are present in it. e.g. Apple, Pear.
Hesperidium: This fruit develops from multicarpellary, syncarpous, superior ovary. This fruit is specially found in plants of Rutaceae family. e.g. Orange, Lemon, Citrus fruit.
Epicarp of these is made up of thick rind which is leathery and many oil glands are found in it.
Mesocarp is white fibrous structure which is attached with epicarp. Membranous endocarp projects inward and form many chambers. Many glandular hairs are present on the inner side of endocarp.
These glandular hairs are only edible parts.
Balausta: It is a multilocular multiseeded fruit, which develops from inferior ovary. Its pericarp is hard. Persistent calyx is arranged in the form of crown. Seeds are irregularly arranged on placenta. Endocarp is hard. Testa is fleshy. This is the edible part of fruit. e.g. Pomegranate (Punica granatum).
Amphisarca: This fruit is multicarpellary and multichambered which develops from superior ovary. Pericarp is hard and fleshy placenta is found in them. The inner part of pericarp and placenta is edible part of fruit. Testa of seed is mucilaginous e.g. wood apple (Aegle marmelos), elephant apple.
Simple Dry Fruit - Pericarp of simple dry fruit is hard and dry and not differentiated into epicarp, mesocarp and endocarp. Such fruits are called dry fruit.
Simple dry fruits can be divided into following three groups:
Indehiscent, Dehiscent, Schizocarpic
Indehiscent fruits: These simple dry fruits are generally of small size and single seeded pericarp does not rupture even after maturity.
Cypsela: It is a small, single seeded dry fruit which develops from bicarpellary, syncarpous inferior ovary. Pericarp and seed coat are free from each other. In these fruits a bunch of hair is attached with the fruit which is known as Pappus. Pappus helps in fruit dispersal. e.g. Compositae family Plants.
Caryopsis: These are small, single seeded dry fruits. It develops from monocarpellary, superior ovary. Pericarp of these fruits is fused with the seed coat and form a joint surface. These fruits are present in family gramineae. Wheat grain or rice grain is a fruit.
Achene: These are single seeded fruit which develops from monocarpellary superior ovary. In it, pericarp is free from the seed coat e.g. Clematis, Mirabilis, Boerhaavia
Nut: This is a single seeded fruit which develop from monocarpellary syncarpous superior ovary.
In it pericarp is hard e.g. Quercus (oak), Anacardium occidentale (Cashewnut) Trapa, (Water chest-nut), Litchi.
In Litchi epicarp and mesocarp is fused and give leathery appearance. Endocarp is membrane like thin. Outer seed coat grows forward and forms an additional coat around the seed which is called as aril. In mature fruit, this aril is fleshy and is only edible part
Samara: These are dry indehiscent one seeded feathery fruit. It develops from bi or tri carpellary, syncarpous and superior ovary. The main character of these fruits is wing like structure develops from its pericarp which helps in dispersal. e.g. Holoptelia.
Dehiscent Fruits: After ripening pericarp are ruptured and seeds are dispersed outside.
Legume or pods: These fruits develop from monocarpellary, unilocular, superior ovary. It is generally long and multiseeded fruit. Dehiscence of fruit occurs at both sutures i.e. Dorsal and ventral side. Dehiscence start from apex and reaches to basal part. e.g. Pea, Beans.
When only one or two seeds are present in fruit, then it is also called as pod.
Follicle: It is also multiseeded fruit which develops from superior unilocular, monocarpellary ovary but the dehiscence of it occur only at ventral suture. e.g. Asclepias, Rauwolfia, Vinca, Michelia (Champa), Delphinium.
Siliqua: This fruit develops from bicarpellary, syncarpous superior ovary with parietal placentation. Dehiscence occurs at both dorsal and ventral suture and starts from lower part and proceeds upward. Due to formation of false septum ovary become bilocular. On false septum, seeds are attached, this type of fruit is found in Cruciferae family. e.g. Mustard.
Silicula: A short broad siliqua is known as Silicula. It is also found in Cruciferae family. eg. Candytuft (lberis amara), Capsella
Capsule: This is dry multichambered and multiseeded fruit and develop from multicarpellary syncarpus, superior ovary. In it, Axile placentation is found and dehiscence occurs by various methods. Poricidal (Poppy), loculicidal (cotton), septifragal (Datura), septicidal (Linseed).
Schizocarpic fruit: It is a multiseeded fruit. After ripening, it is divided into mericarp and seeds come out after destruction of pericarp. The fruits develop from mono or bi or multicarpellary superior or inferior ovary. The mericarp contains one or two seeds.
Lomentum: It develops like legume. Fruits are constricted or divided in one seeded mericarp, after maturity these are separated with each other. Eg Tamarind, Cassia fistula, Mimosa pudica, Archis hypogea, Desmodium.
Cremocarp: It is a double seeded fruit and develops from bicarpellary, syncarpous, inferior ovary. On maturation, it dehisces from apex to base in such a way that two mericarp forms and each contain one seed. These mericarps are attached with carpophore. Carpophore is the extended part of receptacle. eg. Coriander, Cuminum, Foeniculum.
Regma: This fruit develops from tri to pentacarpellary, syncarpous superior ovary. In it three locules are present and its fruit is breaks into three one seeded part. Each part is known as coccus. At the outer end of pericarp, spines are found. eg. Euphorbiaceae family, Castor has three cocci Geranium has 5 cocci.
Carcerulus: It is a dry fruit which develops from multi carpellary or bicarpellary, syncarpous, superior ovary. Number of mericarp is more than locules because of formation of false septum. It divides into four one seeded locules. eg. Ocimum (Basil), Salvia.
In hollyhock and abutilon (family Malvaceae), the no. of locules is more than four
Utricle: It is a single seeded fruit which has thin membrane. It dehiscence generally from cap. It develops from bicarpellary, unilocular, syncarpous, superior ovary. eg. Achyranthes, Amaranthus.
Double Samara: It develop from bicarpellary syncarpous superior ovary. Pericarp develops into two wings. On maturation, it divides in two single seeded mericarp eg. samara, acer.

AGGREGATE FRUIT: -

These fruits develop from multicarpellary apocarpous ovary. Because in apocarpous ovary, each carpel is separated from one another, therefore it forms a fruitlet. These fruits are made up of bunch of fruitlets which is known as etaerio.
Etaerio of follicles: Each fruitlet is a follicle. eg. Calotropis, Catharanthus, Magnolia.
Etaerio of achenes: In this aggregate fruit, each fruitlet is an achene. eg. Ranunculus, Strawberry, Rose, Lotus
Etaerio of berries: It is an aggregate of small berries. eg. polyalthia, Annona squamosa (Custard apple).
In etaerio of Annona all the berries are arranged densely on thalamus.
Etaerio of drupes: In this type of fruit, many small drupes develop from different carpels. eg. Raspberry

COMPOSITE FRUIT: -

All composite fruits are false fruits.
This type of fruit differs from aggregate fruit that in place of single ovary many ovaries and other floral parts combine to form fruit. In composite fruits, generally whole inflorescence is modified into fruit.

These are of two types:

Sorosis: This fruit develops from spike, spadix or catkin inflorescence. Peduncle become thick spongy and woody. eg. Jack fruit, Pandanus (screw pine), Pineapple
In jack fruit (Kathal) Pistillate flowers are developed around the peduncle. In fruit formation pericarp become spongy and fused.
In Pine apple peduncle bracts and perianth become fleshy. Due to the fusion of perianths of flower a composite fruit is formed.
In mulberry perianth become fleshy and calyx of every flower becomes thick, sweet and fleshy and are edible.
Syconus: This fruit develops from Hypanthodium inflorescence. eg. Ficus species like fig, Peepal

DISPERSAL OF FRUITS AND SEED

The seeds falling directly under the mother plant must germinate and develop under limited food supply and space. To overcome this problem, the fruits and seeds have developed several special devices for wide dispersal.
The natural agents like wind, water, animals and even mechanism of dehiscence in some fruits, help the seeds and fruits to disperse from one place to another, and to long distances from the parent plant.

WIND (Anemochory)

In the species where the seeds are light in weight or have some accessory part to help dissemination, are dispersed by the air current.
The seeds of Drum-stick and Cinchona, and fruits of yam, maple and sal tree, are having appendages in the form of thin, flat and membranous wings, which help them to float in the air and be carried away to long distances.
In the members of Asteraceae, the calyx is modified into hair like structures called pappus. They persist in fruit and open out like umbrella, helping the seeds to float in the air.
In poppy and prickly poppy (Argemone), the fruit dehisces and seeds are thrown out to a distance away from the parent plant. (Censor mechanism)
The seeds of Calotropis, Alstonia and cotton are provided with hair and cover sufficient distances along with the wind.
The seeds of orchids and some grasses are very small and light in weight and may be easily carried away by wind too far off places.
In fruits of Physalis swollen persistant calyx is present and fruit can easily be carried out by air.
Some plant like Chenopodium, Amaranthus etc. are uprooted after drying and carried away by wind and seeds are dispersed distantly. These plants are known as tumbler weed.

WATER (Hydrochory)

The fruit and seeds with specialized devices which may be in the form of spongy and fibrous outer walls as in coconut and spongy thalamus as in lotus, and small seeds with airy aril as in water lily, float very easily in water and are carried away to long distances with the water current.

ANIMAL (Zoochory)

The fruit and seeds with hooks, spines, bristles, stiff hair, etc., get attached to the body of animals and are carried away by them to distant places.
Fruits of Xanthium and Urena bear curved hooks.
Spear grass has a bunch of stiff hair.
Tribulus has sharp and rigid spines.
Boerhaavia has sticky hair, which help their dispersal by animals. In Martynia two curved hooks are present.
The edible fruits like guava, grape, fig and plum are dispersed by birds and even human beings by feeding on them and passing out undigested seeds with faeces or by carrying them to other places for later feeding.

DEFENSE MECHANISM IN PLANTS

These specialized structures, organs, substances and adaptations which protect the plants from destroying by animals, insects and disease carriers are called as defence mechanism in plants. Some of these are as follows:

Epidermis, periderm, cork and bark.
Trichomes, hairs and spines.
Laticiferous glands or ducts.
Secretory glands.
Taste of different plant parts.
Underground plant parts.
Myrmecophily
Colour, shape and structure of plants.

Epidermis, Periderm, Cork and Bark

Epidermis acts as a protective layer which saves internal tissues from being damages by high temperature, microbes, acidic rain and high wind velocity etc.
In Vanda (orchid), Nerium, Peperomia etc. it is multilayed. In Peperomia, it consists of 14 to 15 layers of cells
All parts of a plant except root, have a layer of wax-like substance or cutin on the outer surface of the epidermis. This layer is known as cuticle.
In Cycas and Pinus the cuticle is lignified
On aerial parts of Equisetum and members of grass family silica or silicon oxide is found which protect them from grazing animal.
On epidermis of some plants wax, oil, resin crystallized salts, silica, lignified substances etc. are deposited.
In woody plants periderm is present which is a secondary epidermal tissue and is formed by activity of the phellogen. Here the cork is a protective layer.
Bark is the tertiary epidermal tissue found in woody plants. Its main function is to protect the internal tissues from mechanical injury.

Trichomes, Hairs and spines

Leafy epidermal hairs regulate atmospheric humidity,
Covering hairs protect plants from disease causing insects
Glandular epidermal hairs secrete some chemical substances to protect them from animals.
Stinging hairs pierce the skin of animals and secrete poisonous substances which cause irritation and protect the plants from animals. eg. Urtica diocea.
Spiny stipules and spines found in xerophytes protect these plants from grazing animals. eg. Zizypus, Acacia.
Spines of Euphrbia act as defensive devices against grazing animals.
Prickles of Capparis, Bombax and rose and needle like hairs of cacti save these plants from animals.

Laticiferous Glands or Ducts

Woody plants of arid and semi-arid areas secrete a white milky fluid which is called latex.
It is a viscous fluid which contains various substances like water, hydrocarbons, resins, oils, proteins, acids, salts, sugars and rubber in suspended form. It is found in members of family Moraceae, Euphorbiaceae, Apocyanaceae etc. Latex help in protection of these plants from animals. The latex secreted by plants of Calotropis is poisonous.

Secretory Glands or Cells

They are filled with different types of excretory or secretory substances such as oils, tannins, gums, mucilage and different type crystals
Smell of oily substances secreted by oil glands present in the leaves and bark of Eucalyptus and pericarp of lemon fruit protect these plants from animals.

Taste of Different Plant Parts

Aerial parts like fruits, seeds leave, branches and bark of some plants contain different type of alkaloids or excretory substances which are repulsive or bitter in taste and are disliked by animals e.g. Azadirachta indica, Momordica charantia, Trigonella, Ocimum sanctum, Datura stramonium, Papaver somniferum, Mentha arvensis, Nicotiana tabacum, Carica papaya, Cinchona officinalie etc.

Underground Plants

In some plants, plant parts remain under the soil i.e. out of reach of grazing animals e.g. underground modified roots of radish (Raphanus sativus), carrot (Daucus carota), turnip (Brassica rapa), chukandar (Beta vulgaris), heeng (Ferula asafoetida) etc. underground modified stems of potato (Solanum tuberosum), arbi (Colocasia antiquorum), onion (Allium cepa), garlic (Allium sativum). ginger (Zingiber officinale), turmeric (Cucrcuma domestica) etc. and underground fruits of ground nut (Arachis hypogea).

Myrmecophily

Gauva (Psidium guajava), mango (Mangifera indica), litchi (Litchi chinensis), mulberry (Morus alba) etc. secrete some substances which attracts some ants. These ants take their abode on these plants and act as bodyguards against any animal attack. This relationship is called myrmecophily

Colour, Shape and Structure Of Plants

Certain plants strikingly resemble some dreaded animals so that they are carefully avoided by other animals. This is known as mimicry e.g. plants of Caladium and Sensviria resemble spotted serpents

POINT TO BE REMEMBERED

Arrangement of flowers on peduncle and study of flowers is called Anthology.

National flower of India is Lotus (Nelumbo nucifera)
Longest styles are found in maize.
Longest inflorescence is in Agave (12m),
In Mussanda, one (odd) sepal is enlarged to form a leafy structure called Advertisement Flag.
National fruit of India is Mango (Mangifera Indica)
Largest fruit and largest seed is of Lodoicea maldivica (double coconut, weight is 18 Kgs.)
False nuts are Coconut (drupe), Areca nut (Berry), Pea nut or Ground nut (Lomentum), Walnut(drupe) and Chilgoza (seed)
Dispersal of fruits and seeds by ants is called myrmechory eg. Ulex and Trillium (seeds).
Monophyllea is a plant with single leaf.
Welwitschia (a gymnosperm) is a plant with two leaves throughout the life.
Victoria regia has broadest leaves each with a diameter of 1.5–1.8m.
Leaves are longest in Raphia vinifera (10–15m)
Small protein rich glands called Belt's corpuscles are present at the tip of leaflets in Acacia sphaerocephola.
In Musca, the suckers are called sword suckers.
In knol-khol (Ganth Gobhi) the entire stem becomes tuberous.
Largest bud is cabbage.
Pseudostem is a trunk formed by leaf bases in Banana.
A plant with reduced stem is called as Acaulescent.
Ulex possesses both stem thorns as well as leaf spines.
Shruby climbers which climb with the help of hooks are called Stragglers eg. Bougainvillea, Artobotrys.
Marine angiosperm is Zostera.
Pseudobulb is swollen part of stem in orchids for storing water and food reserve.
Annuals and biennials are monocarpic. The perennials are polycarpic as they bear fruits every year. Some perennial plants such as Agave, Bamboo are monocarpic as they flower and fruit only once in their life after a long period of vegetative growth.
Smallest angiosperm is Wolffia (less than 0.1 mm) and largest or tallest angiosperm is Eucalyptus regnans (height more than 114 m or 375 ft.)
Plants with roots only are Podostemon, Arceuthobium, Rafflesia and Sapria.
Hypocotyl develops into a large tuber in Myrmecodia enchinata family Rubiaceae. In the cavities of tuber many ants live. So, it is an example of myrmecophily.
Gynostagium: It is formed due to the fusion of crowned stamens with the carpels. It forms a protective covering around the carpels, thus protects the gynoecium. Presence of Gynostagium is the characteristic feature of family Asclepediaceae.
Maize (Zea mays) has largest stigma and style.
The sterile pistil is called pistalloide.
State tree of Rajasthan → Prosopis cineraria.
State flower of Rajasthan → Rohira (Tecomela undulate)