A flower, sometimes known as a bloom or blossom, is the reproductive structure found in flowering plants. The biological function of a flower is to effect reproduction, usually by providing a mechanism for the union of sperm with eggs.
In addition to facilitating the reproduction of flowering plants, flowers have long been admired and used by humans to bring beauty to their environment, and also as objects of romance, ritual, religion, medicine and as a source of food.
In this lesson you will learn about :
1) Flower - Definition & Functions
2) Floral Symmetry
3) Pedicellate & Sessile Flowers
4) Insertion of Floral Leaves on the Thalamus
5) Parts of a Flower
6) Some Important Terms related to Flowers
7) Floral Whorls - Calyx, Corolla, Androecium and Gynoecium
8) Placentation
9) Inflorescenece
I hope this document is helpful to you. Please share the document with your friends if you think this will benefit them. Get ready for the next lesson. Thanks.
A flower, sometimes known as a bloom or blossom, is the reproductive structure found in flowering plants. The biological function of a flower is to effect reproduction, usually by providing a mechanism for the union of sperm with eggs.
In addition to facilitating the reproduction of flowering plants, flowers have long been admired and used by humans to bring beauty to their environment, and also as objects of romance, ritual, religion, medicine and as a source of food.
In this lesson you will learn about :
1) Flower - Definition & Functions
2) Floral Symmetry
3) Pedicellate & Sessile Flowers
4) Insertion of Floral Leaves on the Thalamus
5) Parts of a Flower
6) Some Important Terms related to Flowers
7) Floral Whorls - Calyx, Corolla, Androecium and Gynoecium
8) Placentation
9) Inflorescenece
I hope this document is helpful to you. Please share the document with your friends if you think this will benefit them. Get ready for the next lesson. Thanks.
An inflorescence is a group or cluster of flowers arranged on a stem that is composed of a main branch or a complicated arrangement of branches. Morphologically, it is the modified part of the shoot of seed plants where flowers are formed.
the floral formula tells us about the nature of flowers. the floral diagram represents the plan of arrangements of floral whorl in relation to the mother axis.
Characters of Apiaceae:
Stem fistular, leaves alternate, much dissected mostly decompound, sheathing leaf base; inflorescence umbel or compound umbel occasionally simple; flowers epigynous, pentamerous, regular rarely zygomorphic, hermaphrodite; calyx superior, pentafid or 0; corolla five, polypetalous, often inflexed; stamens 5; carpels 2; syncarpous, bicarpellary with 2 pendulous ovules; honey-disc surrounding the stigmas – stylopodium is present; fruit cremocarp; seeds endospermic and oily.
A. Vegetative characters:
Habit:
Plants are mostly herbs which may be annual, biennial or perennial, the herbs may be large (Bupleurum, Heracleum, Agelica) rarely shrubs with aromatic odour due to the presence of oil ducts. Pseudocarum climbs by means of its petioles which are very sensitive to contact.
A group of cells which are similar in Origin and function but of more than One type in structure.
Water conducting tissue
Along with phloem make vascular tissue
Provide support to plants
1)Tracheary elements
These are nonliving cells, provide support and conduct water. Two types,
(a)Tracheids: elongate, tube like cell, tapering, rounded or oval ends, hard lignified walls.
(b)Vessels members: long, cylindrical, tube-like structures with lignified walls.
(2)Fibres: thick walls, evolve from tracheids and provide mechanical strength. Two types,
(a)Fibre-tracheids: medium thickness walls, have reduced boardered pits.
(b)Libriform fibres: very thick walls, have reduced simple pits.
Parenchyma cells: living cells, in woody plants, store of food in starch form. Two types:
(a)Axial parenchyma: derived from fusiform initials, have tracheary elements and fibres.
(b)Ray parenchyma: derived from ray initials of cambium, xylem ray cells.
Developmentally, xylem have two types
(1)Primary xylem: derived from procambium, developing from embryo, non-woody plants.
(2)Secondary xylem: from vascular cambium, second stage of plant development, in woody plants.
Poaceae or Gramineae is a large and nearly ubiquitous family of monocotyledonous flowering plants known as grasses. It includes the cereal grasses, bamboos and the grasses of natural grassland and species cultivated in lawns and pasture. The latter are commonly referred to collectively as grass
Pteridophytes are vascular plants and have leaves (known as fronds), roots and sometimes true stems, and tree ferns have full trunks. Examples include ferns, horsetails and club-mosses. Fronds in the largest species of ferns can reach some six metres in length!
Many ferns from tropical rain forests are epiphytes, which means they only grow on other plant species; their water comes from the damp air or from rainfall running down branches and tree trunks. There are also some purely aquatic ferns such as water fern or water velvet (Salvinia molesta) and mosquito ferns (Azolla species).
Pteridophytes do not have seeds or flowers either, instead they also reproduce via spores.
There are around 13,000 species of Pteridophytes.
An inflorescence is a group or cluster of flowers arranged on a stem that is composed of a main branch or a complicated arrangement of branches. Morphologically, it is the modified part of the shoot of seed plants where flowers are formed.
the floral formula tells us about the nature of flowers. the floral diagram represents the plan of arrangements of floral whorl in relation to the mother axis.
Characters of Apiaceae:
Stem fistular, leaves alternate, much dissected mostly decompound, sheathing leaf base; inflorescence umbel or compound umbel occasionally simple; flowers epigynous, pentamerous, regular rarely zygomorphic, hermaphrodite; calyx superior, pentafid or 0; corolla five, polypetalous, often inflexed; stamens 5; carpels 2; syncarpous, bicarpellary with 2 pendulous ovules; honey-disc surrounding the stigmas – stylopodium is present; fruit cremocarp; seeds endospermic and oily.
A. Vegetative characters:
Habit:
Plants are mostly herbs which may be annual, biennial or perennial, the herbs may be large (Bupleurum, Heracleum, Agelica) rarely shrubs with aromatic odour due to the presence of oil ducts. Pseudocarum climbs by means of its petioles which are very sensitive to contact.
A group of cells which are similar in Origin and function but of more than One type in structure.
Water conducting tissue
Along with phloem make vascular tissue
Provide support to plants
1)Tracheary elements
These are nonliving cells, provide support and conduct water. Two types,
(a)Tracheids: elongate, tube like cell, tapering, rounded or oval ends, hard lignified walls.
(b)Vessels members: long, cylindrical, tube-like structures with lignified walls.
(2)Fibres: thick walls, evolve from tracheids and provide mechanical strength. Two types,
(a)Fibre-tracheids: medium thickness walls, have reduced boardered pits.
(b)Libriform fibres: very thick walls, have reduced simple pits.
Parenchyma cells: living cells, in woody plants, store of food in starch form. Two types:
(a)Axial parenchyma: derived from fusiform initials, have tracheary elements and fibres.
(b)Ray parenchyma: derived from ray initials of cambium, xylem ray cells.
Developmentally, xylem have two types
(1)Primary xylem: derived from procambium, developing from embryo, non-woody plants.
(2)Secondary xylem: from vascular cambium, second stage of plant development, in woody plants.
Poaceae or Gramineae is a large and nearly ubiquitous family of monocotyledonous flowering plants known as grasses. It includes the cereal grasses, bamboos and the grasses of natural grassland and species cultivated in lawns and pasture. The latter are commonly referred to collectively as grass
Pteridophytes are vascular plants and have leaves (known as fronds), roots and sometimes true stems, and tree ferns have full trunks. Examples include ferns, horsetails and club-mosses. Fronds in the largest species of ferns can reach some six metres in length!
Many ferns from tropical rain forests are epiphytes, which means they only grow on other plant species; their water comes from the damp air or from rainfall running down branches and tree trunks. There are also some purely aquatic ferns such as water fern or water velvet (Salvinia molesta) and mosquito ferns (Azolla species).
Pteridophytes do not have seeds or flowers either, instead they also reproduce via spores.
There are around 13,000 species of Pteridophytes.
keep this ppt as secondary source , this ppt is used for lesson morphological of flowering plants science grade 11th , a small part from that lesson , concentrate on aestivation as well as divisions based on ovary
Flowers are the reproductive parts of plants,which are responsible for the production of gametes or sex cells ((non flowering plants).
A flower is modified shoot in which the leaves are modified into floral parts. A blossom propagates a branch from a bud in the axil of a little leaf-like structure called the bract. A bract is commonly green due to presence of chlorophyll and is a very small structure (non flowering plants).
Flowers are the reproductive parts of plants,which are responsible for the production of gametes or sex cells ((non flowering plants).
A flower is modified shoot in which the leaves are modified into floral parts. A blossom propagates a branch from a bud in the axil of a little leaf-like structure called the bract. A bract is commonly green due to presence of chlorophyll and is a very small structure (non flowering plants).
Sexual and Asexual reproduction in plants with pollination and development of gametophytes and double fertilization with embryo and endosperm formation.
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2. Flower is defined as a highly modified shoot meant for sexual
reproduction in plants
PEDICEL
THALAMUS
FLORAL WHORLS
3. PEDICEL
Stalk of the flower
Flowers with pedicel are called pedicellate
Flowers without pedicel are called sessile
THALAMUS
Also called as Receptacle or Torus
Terminal end of pedicel is swollen or expanded to form the floral axis
4 nodes and 3 internodes
From each node a whorl of modified leaves is produced
5. Flowers
A flower normally arises In the axil of a small leaf-like structure called as the bract
Flowers with bracts are called as bracteate and those without bracts are called as
ebracteate
A flower is said to be complete when all the four floral whorls are present
A flower is said to be incomplete when any one or more of the four floral
whorls are absent
A flower is said to be Bisexual / Hermaphrodite when both the essential
floral whorls viz.the Androecium and Gynoecium are present
A flower is said to be Unisexual when any one of the essential
floral whorls viz.the Androecium or Gynoecium is absent
A Unisexual may be male / staminate when only androecium is present
OR
A Unisexual may be female / pistillate when only gynoecium is present
A flower is said to be Neuter when both the essential floral whorls are absent
6. Flowers w.r.t symmetry
A flower is said to be regular or Actinomorphic when it can be divided into 2 equal
halves along any of the radii, passing through the centre
A flower is said to be Zygomorphic when it can be divided into 2 equal
halves only along 1 radius, passing through the centre
A flower is said to be Aymmetrical when it cannot be divided into 2 equal
halves from any palne.
7. Flowers w.r.t no. of floral leaves in each whorl
1. ISOMEROUS FLOWER : Flowers which have the same no. of floral leaves in
each of its whorl are called as Isomerous flowers
a) Dimerous : Floral leaves are 2 or in multiples of it
b) Trimerous : Floral leaves are 3 or in multiples of it e.g monocots
c) Tetramerous : Floral leaves are 4 or in multiples of it
d) Pentamerous : Floral leaves are 5 or in multiples of it e.g dicots
2. HETEROMEROUS FLOWER : Flowers which have the diff no. of floral
leaves in each of its whorl are called as
Heteromerous flowers
8. Insertion of floral leaves
HYPOGYNOUS
- Conical Thalamus
- Ovary has superior position
- The rest of the floral whorls
are inserted below gynoecium
e.g. Brinjal, Mustard, China rose
EPIGYNOUS
- Thalamus grows upwards
enclosing the ovary completely
-Ovary has inferior position
-The rest of the floral whorls
are inserted above gynoecium
- e.g. sunflower, Guava
PERIGYNOUS
- Thalamus cup / saucer shaped
- Ovary has half superior position
half inferior
- The rest of the floral whorls are
inserted around the gynoecium
e.g. Rose , pea, bean .
9. C A L Y X
-Outermost whorl of the flower
-Individual members of the whorl are GREEN and are called as SEPALS
SEPALS
Free – POLYSEPALOUS e.g Brassica
Fused – GAMOSEPALOUS e.g China rose
SEPALS
Caducous : Sepals fall off as soon as the flower opens e.g Argemone
Decidous : Sepals survive till the withering of petals e.g mustard
Persistent : Sepals remain even after fruit formation e.g brinjal
FUNCTIONS :
1. Protection of flower in the bud condition
2. Photosynthesis
3. Petaloid sepals attract insects for pollination
4. Hairy calyx (Pappus) help in dispersal of fruits
10. C O R O L L A
-Second whorl of the flower , larger in size and inner to calyx
-Individual members of the whorl are called as PETALS , which are coloured and
scented
PETALS
Free – POLYPETALOUS e.g Rose
Fused – GAMOPETALOUS e.g Datura
FUNCTIONS :
1. Attraction : The bright colour attracts birds and insects for pollination.
2. A tubular gamopetalous corolla can store nectar for attraction
3. Protection of inner essential whorls.
11. P E R I A N T H
-When Calyx and Corolla are similar
-Individual members of the whorl are called as TEPALS
TEPALS
Free – POLYPHYLLOUS
Fused – GAMOPHYLLOUS
TEPALS
Green– SEPALOID
Coloured– PETALOID
FUNCTIONS :
1. Both as Calyx and Corolla. Protects the essential whorls in bud condition
2. A SEPALOID perianth performs Photosynthesis
3. A PETALOID perianth attracts insects for pollination
12. A E S T I V A T I O N
Mode of arrangement of Sepals and Petals in a flower w.r.t. the members of the same whorl.
Margins of Sepals or Petals remain in close contact
or lie close to each other but do not overlap e.g Datura
V A L V A T E
13. One margin is inwards and overlapped
Other margin is outwards and overlaps the margin of
adjacent one. e.g. China rose
T W I S T E D
14. One Sepal/Petal is overlapped at both margins
One Sepal/Petal overlaps at both margins.
Rest of the Sepal/Petals are like Twisted Variety
e.g. Bauhinia
I M B R I C A T E
15. Corolla is butterfly shaped and has 5 petals
Outermost --- largest ---- Standard/Vexillium
Two Lateral --- Wings
Two smaller --- nearly fused – boat shaped--- keel/karina
e.g. Pea
V E X I L L A R Y
17. A N D R O E C I U M
Male Reproductive Whorl made up of STAMENS also called as a MICROSPOROPHYLL
STAMENS
FREE – POLYANDROUS
FUSED – COHESION
STAMEN
FILAMENT ANTHER
-Stalk of stamen with anther at its
tip
-If Filaments fuse and Anthers are
free
it is called as ADELPHY
monadelphous – Hibiscus
diadelphous – Pea
polyadelphous – Citrus
If anthers are fused and filaments
remain free the the condition is
called as SYNGENY (sunflower)
Upper Swollen fertile part of
stamen
1 lobe- monothecous (china rose)
2 lobes – dithecous
Each lobe having 2
chambers/locules
Called pollen sacs/ microsporangia
in which pollen grains or
microspores are produced
19. G Y N O E C I U M
(PISTIL)
Female Reproductive Whorl made up of CARPELS also called as a MEGA SPOROPHYLL
Monocarpellary – pea
Bicarpellary – Datura
Tricarpellary – cucurbita
Pentacarpellary - Hibiscus
CARPELS
FREE – APOCARPOUS
FUSED – SYNCARPOUS
20. CARPEL
STIGMA : Terminal part of Carpel, rough and sticky
Site of pollination
Receives pollen grain for pollination
STYLE : Narrow elongated thread like structure
connecting Stigma with the Ovary
OVARY : Basal Swollen part having chamber called
as LOCULE
unilocular(pea) , bilocular (Mustard) /
trilocular ( Asparagus), tetralocular (Ocimum)
pentalocular (china rose)
Each locule contains OVULES on a fertile tissue
Called as PLACENTA
21. MARGINAL : Ovules are borne at the fused margins of
unilocular ovary e.g. pea
AXILE : Ovules are produced on a central axis of multilocular
ovary e.g. China rose
PARIETAL : Ovules are borne on the inner wall of unilocular
ovary of multicarpellary syncarpous gynoecium
e.g. Cucumber
FREE CENTRAL : Ovules are borne on central axis and septa
are absent e.g. Primrose
BASAL : Single Ovule is borne at the base of unilocular ovary
e.g Sunflower
P L A C E N T A T I O N
23. stem or branches, e.g., Sunflower, Mango, China rose, Mustard etc.
e laterally on the stem or branches, e.g., Sunflower, Mango, China rose, Mustards partially
or completely. Leaves of some plants possess a pair of lateral
dr.aarif
INFLORESCENCE
- A natural group (cluster) of flowers produced on a special reproductive axis
(peduncle) of a plant is called an inflorescence.
- When produced singly, it is called a solitary flower, and when produced in a group,
that group is called an inflorescence.
- flowers are arranged in a definite pattern on a special reproductive branch (axis).
This branch is called peduncle
SIGNIFICANCE OF THE INFLORESCENCE:
- It makes flowers more conspicuous and attractive; therefore it is more effective in
attracting pollinating agents such as insects or birds.
- Moreover, many flowers can be pollinated in a single visit of an agent.
- In an inflorescence, flowers open (mature) successively and not simultaneously.
- This improves chances of pollination as flowering has a longer period.
- Different genera of same family often produce flowers in a particular pattern specific
to that family; therefore it is one of the criteria for identification and classification of
flowering plants
24. stem or branches, e.g., Sunflower, Mango, China rose, Mustard etc.
e laterally on the stem or branches, e.g., Sunflower, Mango, China rose, Mustards partially
or completely. Leaves of some plants possess a pair of lateral
dr.aarif
INFLORESCENCE
RACEMOSE INFLORESCENCE:
1. also known as indefinite inflorescence because its
peduncle (axis) shows continued growth for an
indefinite period. This is possible because the
peduncle has an active terminal bud.
2. The inflorescence axis never terminates in a flower,
i.e. the apical bud of the peduncle is never converted
into a terminal flower.
3. Flowers are arranged in acropetal succession on the
peduncle i.e., older flowers in the inflorescence are
lower down on the axis, while the younger ones are
nearer the apex.
4. The order of opening of flowers in a racemose
inflorescence is always centripetal, i.e. flowers
which are peripheral (or lower) in the inflorescence
are older and mature (open) earlier, while the
flowers, which are in the centre (or nearer to the
apex of inflorescence axis) are younger and mature
later.
5. e.g. Gulmohur, Caesalpinia, etc.
25. stem or branches, e.g., Sunflower, Mango, China rose, Mustard etc.
e laterally on the stem or branches, e.g., Sunflower, Mango, China rose, Mustards partially
or completely. Leaves of some plants possess a pair of lateral
dr.aarif
INFLORESCENCE
26. stem or branches, e.g., Sunflower, Mango, China rose, Mustard etc.
e laterally on the stem or branches, e.g., Sunflower, Mango, China rose, Mustards partially
or completely. Leaves of some plants possess a pair of lateral
dr.aarif
INFLORESCENCE
Racemose inflorescence is of following types
(a) Raceme : peduncle has bisexual and pedicellate flowers arranged acropetally, e. g.,
Larkspur, radish.
(c) Spike. Peduncle has bisexual and sessile flowers, e. g., Achyranthes, Adhathoda.
(d) Spikelet. It is a small, special spike. Flowers are produced in the axil of fertile bracts
called lemma,
e. g., wheat, grasses (Poaceae).
(e) Catkin. It is pendulous spike in leaf axis which bears unisexual flowers, e. g., Morus,
Birch, Oak, Acalypha,
27. stem or branches, e.g., Sunflower, Mango, China rose, Mustard etc.
e laterally on the stem or branches, e.g., Sunflower, Mango, China rose, Mustards partially
or completely. Leaves of some plants possess a pair of lateral
dr.aarif
INFLORESCENCE
(f) Spadix. It is spike with fleshy axis and having both male and female flowers. It is
surrounded by large coloured bracts called spathe, e. g., Musa, Palm, Colocasia,
Alocasia (characteristically found in monocots).
(g) Corymb. The main axis is short. Lower flowers have long pedicels than upper ones
so that all the flowers are brought more or less to the same level, e. g., Iberis, Capsella.
Compound corymb, e. g., Cauliflower. Corymbose raceme is found in mustard.
(h) Umbel. The main axis is reduced very much and all flowers appear to be arising
from the same point
At the base of flowers, cluster of bracts form an involucre, e. g., Hydrocotyl.
Compound umbel e. g., Coriander.
(i) Capitulum or head. Main axis becomes flat and called receptacle. It bears many
sessile and small florets. Peripheral florets called ray florets are pistillate or neuter and
zygomorphic, whereas disc floret are bisexual and actinomorphic e. g., Sunflower,
Zinnia, Cosmos (Asteraceae).
28. stem or branches, e.g., Sunflower, Mango, China rose, Mustard etc.
e laterally on the stem or branches, e.g., Sunflower, Mango, China rose, Mustards partially
or completely. Leaves of some plants possess a pair of lateral
dr.aarif
INFLORESCENCE
29. stem or branches, e.g., Sunflower, Mango, China rose, Mustard etc.
e laterally on the stem or branches, e.g., Sunflower, Mango, China rose, Mustards partially
or completely. Leaves of some plants possess a pair of lateral
dr.aarif
INFLORESCENCE
CYMOSE INFLORESCENCE:
1. The cymose inflorescence is also called the definite
inflorescence as its peduncle has a limited growth.
This is because the apical bud of the peduncle is
converted into a flower.
2. Below this apical bud, one or more lateral
branches may develop on the main peduncle. These
branches terminate into flower.
3. The flowers are thus arranged in basipetal
succession on the peduncle, i.e. the first formed and
the oldest flower is terminal in position, while the
flowers produced later (younger flowers) are lower
down in position on the peduncle.
4. The order of opening of the flowers is centrifugal.
The central (terminal) flower is the oldest and opens
first, while the peripheral flowers are younger &
open later
5. ,e.g. Jasmine, Clerodendron, etc.
30. stem or branches, e.g., Sunflower, Mango, China rose, Mustard etc.
e laterally on the stem or branches, e.g., Sunflower, Mango, China rose, Mustards partially
or completely. Leaves of some plants possess a pair of lateral
dr.aarif
INFLORESCENCE
31. stem or branches, e.g., Sunflower, Mango, China rose, Mustard etc.
e laterally on the stem or branches, e.g., Sunflower, Mango, China rose, Mustards partially
or completely. Leaves of some plants possess a pair of lateral
dr.aarif
INFLORESCENCE
(a) Verticillaster e. g., Ocimum , (Tulsi) Salvia (Lamiaceae).
(b) Cyathium: Poinsettia (Euphorbia pulcherrima),
(c) Hypanthodium:. Ficus (Banyan, Fig, Gular)
33. stem or branches, e.g., Sunflower, Mango, China rose, Mustard etc.
e laterally on the stem or branches, e.g., Sunflower, Mango, China rose, Mustards partially
or completely. Leaves of some plants possess a pair of lateral
dr.aarif
FRUITS
- A fruit is defined as the metamorphosed or a ripened ovary without or with one or
more seeds.
- after successful fertilization an ovary develops to form a fruit.
- fruits developed without fertilization are called parthenocarpic fruits .
1. When a fruit is developed exclusively from the ovary of a flower, it is called a true
fruit, e.g. mango.
2. Sometimes, other floral parts, like thalamus, or receptacle may develop as a part of
the fruit, such fruits are called false fruits or pseudocarps.
3. For example in apple and pear the thalamus grows around the ovary and becomes
fleshy to form the main edible part of the fruit.
34. stem or branches, e.g., Sunflower, Mango, China rose, Mustard etc.
e laterally on the stem or branches, e.g., Sunflower, Mango, China rose, Mustards partially
or completely. Leaves of some plants possess a pair of lateral
dr.aarif
FRUITS
A fruit mainly consist of two parts - pericarp or fruit wall and seed(s).
PERICARP- It is the wall of a fruit, which is developed from ovary wall. In some plants the
pericarp is differentiated into three parts, epi, meso and endocarp.
- EPICARP - It is the outer part of the fruit wall, which forms the skin or protective
covering of the fruit.
- MESOCARP - It is the middle part of the fruit wall, which forms the major pulpy or juicy
part of a fruit as in Mango.
- ENDOCARP - It is the inner part of the fruit wall, which may be thin and membranous
as in orange or hard and stony as in mango, plum and coconut.
In some plants, pericarp is single, not differentiated into such parts, e.g. Pea, Beans, etc.
SEEDS- The fruit wall may enclose one or more seeds which develop from fertilized
ovules.
35. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts develops
into a plants possess a pair of lateral
dr.aarif
FRUITS
CLASSIFICATION OF FRUITS:
1) SIMPLE FRUITS :
- When the ovary of a single flower with or
without other accessory floral parts develops into
a single fruit, the fruit is said to be a simple fruit.
- Ovary may be monocarpellary or polycarpellary
and syncarpous.
- It may be further divided into dry (e.g. cotton,
pea, lady's finger etc.) and fleshy fruits (e.g.
tomato, guava, mango etc.).
- In dry fruits, pericarp becomes dry and thin at
maturity. The dry fruits are further classified into
dehiscent and indehiscent fruits on the basis of
presence or absence of natural dehiscence or
breaking of their pericarp at maturity.
- Legume and capsule are dry and dehiscent
fruits.
36. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts develops
into a plants possess a pair of lateral
dr.aarif
FRUITS
CLASSIFICATION OF FRUITS:
1) SIMPLE FRUITS :
- In fleshy fruits, the pericarp is thick and fleshy
and may or may not be differentiated into : all
the three parts i.e. outer epicarp, middle
mesocarp and inner endocarp or only epicarp
(skin of the fruit) and fleshy mesocarp.
- Fleshy fruits are mostly indehiscent.
- Drupe (one seeded) and Berry (many seeded)
are fleshy fruits.
37. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts develops
into a plants possess a pair of lateral
dr.aarif
FRUITS
CLASSIFICATION OF FRUITS:
AGGREGATE FRUITS OR ETAERIOS:
- A fruit which develops from a polycarpellary
apocarpous gynoecium of a single flower is
called, an aggregate fruit or etaerio.
- In such a case, the carpels are free and ovary of
each carpel develops into a small, simple fruitlet.
- A collection or a group of simple fruitlets makes
an aggregate fruit.
- An aggregate fruit is further classified into sub-
types on the basis of characters of fruitlets.
- In custard apple (Anona squamosa) the apices of
all fruitlets become thick, hard and fuse along
their margins to form a common covering around
the fruit.
38. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts develops
into a plants possess a pair of lateral
dr.aarif
FRUITS
CLASSIFICATION OF FRUITS:
COMPOSITE OR MULTIPLE FRUITS:
- A composite or multiple fruit develops from
the entire inflorescence.
- In such fruits, along with the ovaries and
other floral parts, the peduncle also takes
part in the formation of the fruit.
- On the basis of the type of inflorescence,
composite fruits are classified into two
main types-
- Sorosis (pineapple, mulberry, jackfruit)
- Syconus (fig)
39. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FRUITS
Fruits
Simple Aggregate Composite
1. Sorosis
2. Syconus
1.Etario of achenes
2. Etario of drupes
3. Etario of follicles
4. Etario of berries
Fleshy
1. Drupe
2. Berry
3. Pepo
4. Hesperidium
5. Pome
6. Balausta
7. Amphisaca
Dry
Dehiscent
1. Legume
2. Follicle
3. Siliqua
4. Silicula
5. Capsule
Indehiscent
1. Caryopsis
2. Achene
3. Cypsela
4. Nut
Schizocarpic
1. Lomentum
2. Creomocarp
3. Regma
4. Samara
5. Carcerulus
40. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FRUITS
41. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FRUITS
DRY INDEHISCENT FRUITS
CARYOPSIS : Develops from monocarpellary, unilocular ovary. Fruit wall or pericarp is
completely fused with seed coat.
e. g., wheat, maize rice (Graminae).
ACHENE: It develops from monocapellary, unilocular ovary. Fruit wall (pericarp) is not
completely attached with seed coat (as that of caryopsis),
e. g., Mirabilis.
CYPSELA : Develops from bicarpellary, unilocular and inferior ovary. Calyx is hair like
and called pappus which helps in dispersal of fruits (seeds),
e. g., Sunflower, Sonchus, Zinnia, Taraxacum. It is characteristic fruit of family
Compositae (Asteraceae).
NUT: Develops from polycarpellary superior ovary. pericap is hard (stony) and
sometimes woody,
e. g., Anacardium (cashew nut), Litchi (marking nut), Triapa (water chestnut) and
Quercus (oak)
42. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FRUITS
DRY DEHISCENT
LEGUME OR POD: Dry, one chambered fruit developing from a superior and
monocarpellary ovary. Mature fruit dehisces by both sutures or margins,
e. g., Gram, lentil, pea.
SILIQUA: Develops from bicarpellary, unilocular ovary with parietal placentation,
dehiscence of fruits occur by both the halves from base to apex,
e. g., Mustard, radish.
This is characteristic fruit of family Crucferae or Brassicaceae.
SILICULA : A short, broad, flat siliqua with few seeds is known as silicula.
e. g., lberis, Capsella
CAPSULE : Develops from multicarpellary, syncarpous ovary. Dehiscence occurs by
many ways.
(a) By Pores : Porocidal, e. g., Opium (Poppy), Argemone.
(b) By locules or valves : Loculicidal, e. g., Cotton.
(c) By Septa : Septicidal, e. g., Linseed.
(d) Septa breakdown into fragments : Septifragal, e. g., Datura.
43. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FRUITS
FLESHY OR SUCCULENT FRUITS
DRUPE : Mostly one seeded fruits with pericarp differentiated into epicarp, mesocarp
and hard and stony endocarp,
e. g., Mangifera indica (Mango-epicarp forms skin, mesocarp-fleshy, juicy and edible
endocarp is hard and stony),
Cocos nucifera (Coconut-Mesocarp is fibrous which is used in making coir so called as
fibrous drupe),
Juglans regia (walnut, Edible part are the cotyledons).
BERRY : one to many seeded fruits. Epicarp forms the outer skin. Middle thick and
fleshy part is called mesocarp with a membrane like endocarp.
e. g., Tomato, guava, papaya, grapes, banana, brinjal, chillies. Betel nut is a one seeded
berry.
PEPO (hard walled berry) : Develops from tricarpellary, syncarpous, unilocular and
inferior ovary. Epicarp forms skin of fruit. Mesocarp and endocarp are fleshy and
edible. Sometimes, fruits are bitter in taste due to tetracyclic triterpenes
e. g., Cucumber, gourd, watermelon.
44. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FRUITS
POME: Develops from syncarpous inferior ovary which is surrounded by fleshy
thalamus. So, true fruit lies inside the swollen fleshy and edible thalamus. It is false
fruit or pseudocarp.
e. g., Apple, pear. Edible part is fleshy thalamus
HESPERIDIUM : Develops from multicarpellary, multilocular, syncarpous, superior ovary
with axile placentation. The epicarp and mesocarp fused together to form skin or rind
of the fruit. Endocarp projects inwards forming a number of distinct chambers. The
juicy unicellular hairs are present on the inner side of the endocarp.
e. g., Orange and all citrus fruits.
BALAUSTA : Develops from multilocular, syncarpous, inferior ovary. Epicarp is tough
and leathery. Endocarp is membranous. Seeds are irregularly distributed inside the
fruit. Juicy testa of the seeds is edible. The fruit has persistent calyx
e. g., pomegranate.
AMPHISARCA : Develops from multicarpellary, syncarpous, multilocular and superior
ovary. The epicarp is hard and woody, mesocarp, endocarp and swollen placenta are
fleshy and edible e. g., Aegle marmelos (wood apple or bael), Feronia limonia (Kaith or
elephant apple).
45. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FRUITS
Aggregate Fruits
Aggregate fruits are formed from polycarpellary, apocarpous ovary. Each carpel
develops into a fruitlet and all fruitlets together form an aggregate fruit. An aggregate
of simple fruits borne by apocarpous ovary of a single flower is otherwise known as
'etaerio'.
(I) An etaerio of achenes e. g., Strawberry
(ii) An etaerio of berries e. g., Artobotrys
(iii) An etaerio of follicles e. g., Delphinium, Michelia
(iv) An etaerio of drupes e. g., Raspberry.
Multiple or Composite Fruits
The multiple fruit develops from the entire inflorescence. These fruits are of two types
(i)Sorosis : These fruits develop from spike, spadix or catkin inflorescence. The flowers
fuse together by their sepals or perianth and the whole inflorescence forms a compact
mass e. g., Jackfruit, mulberry, pineapple.
(ii)Syconus : This fruit develops from hypanthodium inflorescence
e. g., Ficus sp. (Fig, gular, banyan, peepal).
The fruitlets are achenial in nature.
46. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FRUITS
47. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FRUITS
48. stem or branches, e) SIMPLE FRUITS:
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FRUITS
49. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
SEED
A seed is defined as "a fertilized and metamorphosed ovule containing an
embryo enclosed in. resistant protective coats.“
Seed is also described as the initial, dormant stage of the diploid sporophytic
generation in the life cycle of Spermatophytes or Phanerogams
STRUCTURE OF A DICOTYLEDONOUS SEED
- Covering : outer thick and resistant layer is called testa
inner thin and membranous layer called tegmen.
- A seed is attached to the inner wall of fruit by a small stalk called funicle, at a
point called hilum
- A small pore is present close to the hilum in the testa, called the micropyle.
- A ridge may be seen in continuation with the hilum on testa, which is called raphe.
- Enclosed within the seed coat, there is an embryo consisting of embryo - axis
(tigellum) and two cotyledons
- The contents enclosed within the seed coat are together called kernel.
- The embryo axis consists of two ends - the radicle and the plumule.
50. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
SEED
STRUCTURE OF A DICOTYLEDONOUS SEED
- The cotyledons are attached to the embryo axis at the region, which represents
first node of embryo.
- The part of embryo axis between radicle and first node is called hypocotyl while
the part between plumule and cotyledons is called epicotyl.
Most of the dicotyledonous seeds are called exalbuminous or non-endospermic
because they lack the endosperm at maturity. In such cases, entire endosperm is
consumed during its development.
A few dicotyledonous seeds like castor, possess endosperm and are called
albuminous or endospermic seeds.
In albuminous seeds, cotyledons are thin and papery while in ex-albuminous seeds,
the cotyledons are thick and fleshy as they store necessary reserve food material.
51. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
SEED
STRUCTURE OF A MONOCOTYLEDONOUS SEED
- A maize grain represents a single-seeded fruit in
which the seed coat and the fruit wall are
inseparable.
- On one side of the grain a small, opaque,
whitish, area is seen. Embryo lies embedded in
this area. A thin layer lying around the grain is
formed by fusion of seed-coat and the fruit wall
which is called hull.
- The grain is divided into two unequal portions
by a definite layer known as the epithelium.
- The bigger portion is the endosperm, and the
smaller portion, the embryo.
- The endosperm is food storage tissue.
52. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
SEED
STRUCTURE OF A MONOCOTYLEDONOUS SEED
- The embryo consists of a single shield-shaped
cotyledon (known as the scutellum) and the
axis.
- The upper portion of the axis is the plumule and
the lower portion is the radicle. The plumule is
surrounded by a protective sheath called
coleoptile and the radicle is surrounded by
another sheath called coleorhiza.
53. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
- Various morphological features are used to describe a flowering plant.
- The description has to be brief, in a simple and scientific language and presented in a
proper sequence.
- The plant is described beginning with its habit, vegetative characters - roots, stem
and leaves and then floral characters inflorescence and flower parts.
- After describing various parts of plant, a floral diagram and a floral formula are
presented.
- The floral formula is represented by some symbols.
- A floral diagram provides information about the number of parts of a flower, their
arrangement and the relation they have with one another
54. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
55. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
FAMILY : FABACEAE
56. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
FAMILY : FABACEAE
57. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
FAMILY : FABACEAE
Vegetative Characters :
Trees, shrubs, herbs; root with root nodules
Stem : erect or climber
Leaves : alternate, pinnately compound or simple; leaf base, pulvinate; stipulate;
reticulate venation
Floral characters :
Inflorescence: racemose
Flower : bisexual, zygomorphic
Calyx : sepals five, gamosepalous; imbricate aestivation
Corolla : petals five, polypetalous, papilionaceous, consisting of a
posterior standard, two lateral wings, two anterior ones forming
a keel (enclosing stamens and pistil), vexillary aestivation
Androecium : ten, diadelphous, anther dithecous
Gynoecium : ovary superior, mono carpellary, unilocular with many
ovules, style single
Fruit : legume; seed: one to many, non-endospermic
%♂ K(5)C1+2+(2), A(9)+1 G1
+
58. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
FAMILY : FABACEAE
Economic importance :
Many plants belonging to the family are
- sources of pulses (gram, arhar, sem, moong, soyabean)
- edible oil (soyabean, groundnut);
- dye (Indigofera);
- fibres (sunhemp);
- fodder (Sesbania, Trifolium)
- ornamentals (lupin, sweet pea)
- medicine [muliathi).
59. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
FAMILY : SOLANACEAE
60. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
Vegetative Characters :
Plants mostly herbs, shrubs and rarely small trees
Stem : herbaceous rarely woody, aerial; erect, cylindrical, branched, solid
or hollow, hairy or glabrous, underground stem in potato (Solanum tuberosum)
Leaves: alternate, simple, rarely pinnately compound, exstipulate;
venation reticulate
Floral Characters :
Inflorescence : Solitary, axillary or cymose as in Solarium
Flower : bisexual, actinomorphic
Calyx : sepals five, united, persistent, valvate aestivation.
Corolla : petals five, united; valvate aestivation
Androecium : stamens five, epipetalous
Gynoecium : bicarpellary, syncarpous; ovary superior, bilocular, placenta
swollen with many ovules
Fruits : berry or capsule
Seeds : many, endospermous
FAMILY : SOLANACEAE
♂ K(5)C(5) A5 G(2)+
61. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
Economic importance :
Many plants belonging to this family are
- source of food (tomato, brinjal, potato),
- spice (chilli);
- medicine (belladonna, ashwagandha)
- fumigatory (tobacco);
- ornamentals (petunia)
FAMILY : SOLANACEAE
62. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
FAMILY : LILIACEAE
63. Floral Characters :
Inflorescence : solitary /cymose; often umbellate clusters
Flower : bisexual, actinomorphic
Perianth : tepal six (3+3), often united into tube; valvate aestivation
Androecium : stamen six, (3+3)
Gynoecium : tricarpellary, syncarpous, ovary superior, trilocular with many ovules;
axile placentation
Fruits : capsule rarely berry
Seeds : endospermous
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
Vegetative Characters :
Perennial herbs with
Stem : underground bulbs/corms/ rhizomes
Leaves: mostly basal, alternate, linear, exstipulate with parallel venation
Br ♂ P(3+3)A(3+3) G(3)
+
FAMILY : LILIACEAE
64. TYLEDONOUS SEED
When the ovary of a single flower with or without other accessory floral parts
develops into a plants possess a pair of lateral
dr.aarif
FLORAL FORMULA & FLORAL DIAGRAM
Economic importance :
Many plants belonging to this family are
- good ornamentals (tulip, Gloriosa),
- source of medicine (Aloe),
- vegetables [Asparagus], and
- colchicine [Colchicum autumnale].(medicine that treats Gout)
FAMILY : LILIACEAE