NEET EXPERT
BIOLOGY BY DOCTORS
PLANT
MORPHOLOGY PART 2
LEAF..
The leaf is a
green, flat, thin, expanded lateral appendage of stem which is borne at a node
and bears a bud in its axil.
- The green colour of
leaf is due to presence of the photosynthetic pigment – chlorophyll which helps
plants to synthesize organic food.
- The green
photosynthetic leaves of a plant are collectively called foliage.
- They are borne on
stem in acropetal succession.
Characteristics of Leaf
(i) The leaf is a
lateral dissimilar appendage of the stem.
(ii) A leaf is always borne at the node of stem.
(iii) Generally there
is always an axillary bud in the axil of a
leaf.
(iv) It is exogenous in origin and develops from the
swollen leaf primordium of the growing apex.
(vi) The leaves do not
possess any apical bud or a regular growing point.
(vii) A leaf has three
main parts – Leaf base, petiole and leaf lamina. In addition, it may possess
two lateral outgrowths of the leaf base, called stipules.
(viii) The leaf lamina
is traversed by prominent vascular strands, called veins.
Parts of a Typical Leaf
The leaf consists of
three parts namely, leaf base (usually provided with a pair of stipules),
petiole and leaf blade or lamina.
(i) Leaf base (Hypopodium)
: Leaf base is the lower
most part of the leaf meant for attachment. It acts as a leaf cushion. In most
of the plants it is indistinct. Sometimes leaf base shows different variations
as follows :
(a) Pulvinate leaf base
: In members of
leguminosae the leaf is swollen. Such swollen leaf bases are called pulvinate leaf basesas seen in mango leaves. It helps in
seismonastic movements (e.g., Mimosa pudica) and nyctinastic movements (e.g., Enterobium,
Arachis, Bean).
(b) Sheathing leaf base
: In grasses and many monocots,
the leaf base is broad and surrounds the stem as an envelope, such a leafbase
is called sheathing leaf base. e.g., Sorghum, Wheat and Palms. In grasses (Sorghum, Wheat etc.) the sheathing leaf base protects the intercalary
meristem.
(c) Modified leaf base
: The leaf bases in few
plants perform accessory functions and show modifications. In Allium cepa (Onion), the leaf bases store food materials
and become fleshy. They are arranged concentrically to form a tunicated bulb.
In Platanus and Robenia, the leaf bases protect the axillary buds and
grow around them to form cup like structures.
(d) Stipule : The stipules are the small lateral appendages
present on either side of the leaf base. They
protect the young leaf or leaf primordia. Leaves with stipules are called stipulate and those without them are called exstipulate. The stipules are commonly found in
dicotyledons. In some grasses (Monocots) an additional outgrowth is present
between leaf base and lamina. It is called ligule. The leaves having ligules are called
ligulate. Sometimes, small stipule like outgrowths are found at the base of
leaflets of a compound leaf. They are called Stipules.
Types
of Stipules
Depending upon the
structure and position various kinds of stipules are recognized.
·
Free lateral stipules : A pair of freely arranged stipules present on either side of the
leaf base are called free lateral stipules, e.g., Hibiscus and Cotton.
·
Adnate stipules : The two stipules that fuse with the leaf base or petiole on
either side are called adnate stipules, e.g., Arachis and Rose.
·
Inter petiolar stipules : Stipules present in between the petioles of
opposite leaves, e.g., Ixora and Hamelia.
·
Axillary stipules : Stipules present in the axil of a leaf are called axillary
stipule. These are also called intrapetiolar stipule, e.g., Tabernamontana and Gardenia.
·
Ochraceous stipules : Membranous tubular stipules that ensheath the axillary bud and a
part of internode is called ochraceous stipule. It is formed by the union of
two stipules, e.g., Polygonum and Rumex.
·
Hairy stipules : These are hair like stipules which are dry in nature,
e.g., Anacampsora.
·
Modification of stipule : To carryout different functions, stipules of
some plants undergo modifications. They are classified as follows :
·
Foliaceous : Green, expanded, leaf like stipules are called foliaceous
stipules. They carryout photosynthesis, hence called assimilatory stipules,
e.g., Pisum sativum and Lathyrus.
·
Spinous : In some plants the stipules are modified into hard, pointed
defensive organs called spines, e.g., Acacia arabica,Prosopis juliflora and Zizyphus.
·
Convolute or Bud scales : Scales which protect the buds are called bud
scales. Sometimes they are the modified to stipules. The bud scales fall off as the buds open,
e.g., Artocarpus and Ficus.
(ii) Petiole (Mesopodium)
: A petiole or leaf
stalk is a cylindrical or sub cylindrical structure of a leaf which joins the
lamina to the base. It raises the lamina above the level of stem so as to
provide it with sufficient light exposure. A leaf with a petiole is
called petiolate and
the one without it is called sessile.
(a) Modification of
petiole
·
Winged petiole : Green, flattened petioles may be called winged petioles,
e.g., Citrus and Dionaea.
·
Tendrillar petiole : In few plants the petioles are modified into tendrils and
helps the plant in climbing. e.g., Clematis and Tropaeolum.
·
Leaf like petiole (Phyllode) : A modified petiole which is flat, green and lamina like is
called phyllode. It is a photosynthetic organ. e.g., Acacia auriculae
formis.
·
Swollen or Spongy petiole : Sometimes the petiole becomes swollen and spongy due to
the development of aerenchyma. The type of petioles encloses much air and helps
the plant to float. It is a hydrophytic adaptation e.g., Trapa bispinosaand Eichhornia.
·
Spinous petiole : In few plants, the leaf blades fall off and the petioles
become hard and spinous e.g., Quisqualis (Rangoon creeper).
(iii) Lamina (Epipodium)
: The green expanded
portion of the leaf is called the lamina. It performs vital functions like
photosynthesis and transpiration. The nature of lamina depends upon the species
and age of the leaf. A leaf lamina shows variations in different aspects like
shape, margin, apex, texture and venation.
(d) Surface of lamina
: The surface of the
lamina may be of many kinds.
·
Glabrous : Smooth
and without hair. e.g,. Mangifera indica.
·
Glaucus : Covered
by waxy coating with white tinge. e.g., Calotropis.
·
Scabrous : Rough
surface. e.g., Ficus.
·
Viscose : Sticky
surface. e.g., Cleome.
·
Pubescent : Covered
with soft and wooly hair. e.g., Tomato.
·
Pilose : Covered
with long distinct scattered hair. e.g., Grewia pilosa.
·
Hispid : Covered
with long rigid hair. e.g., Cucurbita.
·
Spinose : Covered
with small spines. e.g., Solanum xanthocarpum.
e) Texture of lamina
: The texture of lamina
also varies in different species.
·
Herbaceous : When
the lamina is thin and soft.
·
Coriaceous : When the lamina is leathery.
·
Succulent : When
the lamina is thick, soft and juicy.
·
Hygrophytic : When the lamina is very thin, membranous and spongy.
(3) Types of leaves
: On the basis of shape
of lamina, the leaves are classified into two types, namely, simple leaf and
compound leaf.
(i) Simple leaves : The leaf having single undivided lamina is
called the simple leaf. The simple leaf may be entire (e.g., Mango and Hibiscus rosa sinensis) or lobed. The lobes of a simple leaf may be
entire pinnately arranged (e.g., Brassica) or palmately arranged (e.g., Gossypium, Passiflora and Ricinus).
(ii) Compound leaves
: A compound leaf is one
in which the lamina or the leaf blade is completely divided into many segments
or units called leaflets or pinnae. When pinnae of
leaflets attached in various ways to the portion of leaf axis known as
the rachis. The compound leaves
may be of two types, namely, pinnate compound leaves and palmately compound
leaves.
(a) Pinnate compound
leaves : It is the most
familiar and widesperead type of compound leaf in which the rachis is elongated and bears two rows of simple or divided
leaflets. The leaflets may be arranged alternately or in pairs along
with the rachis. It is of following types :
·
Unipinnate compound leaf : Here the primary rachis is unbranched and bear
leaflets on either side. Unipinnate leaves are of two types :
·
Paripinnate : The unipinnate leaf with even number of leaflets. They are borne
in pairs. e.g., Tamarindus indica (Imli), Cassiaetc.
·
Imparipinnate : The unipinnate leaf with odd number
of leaflets. The rachis is terminated by single unpaired leaflet.
e.g., Neem, Rose, Murraya.
·
Bipinnate compound leaf : In this type, the primary rachis is divided
once and produce secondary and tertiary rachis. The leaflets develop on the
secondary rachis. e.g., Delonix and Acacia, Mimosa pudica, Albizzia.
·
Tripinnate compound leaf : In this type the primary rachis divides twice
and produces secondary and tertiary rachii. The leaflets develops on the
tertiary rachii. e.g., Moringa (Soanjana) and Millingonia.
·
Decompound leaf : Here the primary rachis divides many times without any definite
order. The lamina is dissected into many units. e.g., Coriandrum.
(b) Palmate compound leaf
: In a palmately
compound leaf, the leaflets are arranged at the tip of the
petiole. According to the number of leaflets present at the tip of
the petiole. These leaves are following types :
·
Unifoliate : In this case, a palmately compound leaf is reduced to a single
terminal leaflet. The single leaflet is articulated to the top of petiole,
e.g., Citrus (Khatta),
Lemon, etc.
·
Bifoliate : This type of leaf has only two leaflets attached side by side at
the terminal end of petiole, e.g., Balanites roxburghii, Hardwickia binata, etc.
·
Trifoliate : This type of leaf has three terminal leaflets, Aegle marmelos (Wood apple, vern. Bael), Oxalis corniculata,
Trifollium(Clover), etc. These
leaves differ from trifoliate imparipinnate (e.g., Lablab) in having all the
three leaflets attached at the tip of petiole.
·
Quadrifoliate : This leaf has four leaflets attached to the tip of petiole.
e.g., Paris quadrifolia, Marsilea.
·
Multifoliate : A palmately compound leaf having five or more terminal leaflets,
arranged as fingers of the palm, e.g., Bombax malabarica, Cleome viscosa, Gynandropsis pentaphylla, etc.
(4) Phyllotaxy
(Phyllotaxis) : The leaves may be stem
borne (cauline), branch borne (ramal) or may appear
to be root borne (radical). The arrangement of leaves on the stem is called phyllotaxy
(Gk. Phyllon = leaf; taxis = arrangement). It is of three types :
(i) Alternate or Spiral
: When only one leaf is found at each node. The leaves present
at successive nodes alternate with each other. The arrangement is said to be
alternate or spiral. The leaves are commonly arranged spirally around the stem.
Each spiral is called the genetic spiral.
(ii) Opposite : When two leaves are present at node opposite to each other the type of
phyllotaxy is called opposite. It is of two type :
(a) Opposite superposed
: All the pair of leaves
of a branch arise in the same plane so that only two vertical rows of leaves
are formed. e.g., Jamun, Guava, etc.
(b) Opposite decussate
: A pair of leaves at
one node stands at right angle to the next upper or lower pair so that four
vertical rows are formed on the stem. e.g., Calotropis, Zinnia, Tulsi, Quisqualis.
(iii) Whorled : If more than two leaves are present at a node
as whorl, it is called whorled
phyllotaxy. It is also called cyclic or verticellate phyllotaxy. e.g., Nerium, Hydrilla and Alstoni scholaris.
(iv) Leaf mosaic : This is a special type of arrangement of
leaves. Older leaves present at the lower nodes of the stem possess longer
petioles with bigger lamina and the young leaves of upper nodes bear shorter
petioles with smaller lamina. The smaller young leaves occupy the space present
between the bigger ones. e.g., Begonia, Acalypha and Sycamore.
(5) Vernation : Arrangement of leaves in bud condition is
known as vernation imbricate
(irregular overlapping), contorted (twisted, regular overlapping of
margins), induplicate (margin bent
inwardly), equitant (conduplicate in two
series, one overlapping the other completely), half equitant, supervolute
(convolute leaves, one rolled over other).
(6) Heterophylly : It is the occurrence of more than one
type of leaves on the same plant. Heterophylly is of four types :
(i) Adaptive heterophylly
: Submerged leaves are
different from floating and emerged leaves of the same plant due to different
adaptations. e.g., Limnophila heterophylla, Sagittaria, Ranunculus aquatilis. The emerged leaves are broad and fully
expanded while the submerged leaves are narrow, ribbon shaped, linear or highly
dissected.
(ii) Environmental
heterophylly : The heterophylly
is due to change in environment including soil, temperature, humidity and air
currents.
(iii) Developmental
heterophylly : Young leaves are
different from mature leaves, e.g., Eucalyptus.
(iv) Habitual heterophylly
: Leaves of
different shape and incisions occur at the same time, e.g., Jack fruit tree (Artocarpus
heterophyllus), Ficus heterophylla, Hemiphragma heterophyllum, Broussonetia papyrifera. In Hemiphragma, the main stem bears ovate and entire leaves while branches
possess acicular leaves.
(7) Modification of
leaves : Some important leaf
modification are as follows :
(i) Leaf tendrils : In many weak stemmed plants, the leaves are
modified into slender wiry and coiled structures called leaf tendrils. The
tendril may be formed by entire leaf or a part of the leaf.
·
Entire leaf modified
into tendril, e.g., Lathyrus aphaca (Wild pea).
·
Terminal leaflets
modified into tendril, e.g., Pisum sativum (Pea), Lathyrus odoratus (Sweet pea), Narvella.
·
Leaf tip modified into
tendril, e.g., Gloriosa.
·
Petiole modified in to
tendril, e.g., Clematis.
·
Stipule modified into
tendril, e.g., Smilax.
·
Midrib modified into
tendril, e.g., Nepenthes.
(ii) Spines : A pointed structure formed by the modification
of entire leaf or part of a leaf is called a spine. Different part of a leaf or
entire leaf may be modified in to spines. e.g., In Opuntia leaves of axillary branches are modified
into spines. In Berberisentire
leaf modified into three spines. In Phoenix leaf tip modified into spine. In Citrus first leaf of axillary branch modified
in to spine. In Argimone leaf
margin modified into spines. In Perkinsonia, Acacia and Zizyphus stipules modified into spines.
(iii) Scale leaves : In many xerophytes, the foliage leaves are
reduced to scale leaves. They are thin, membranous, dry, small, sessile,
colourless structure. e.g., Casuarina, Orobanche and Balanophora.
(iv) Phyllode : It is a green, expanded structure formed
by the modification of petiole or rachis of leaf. Many xerophytes reduce the size of their leaves to
minimize water loss. Such plant develop phyllodes to carry out photosynthesis
e.g., Acacia, Melanoxylon and Parkinsonia.
(v) Storage leaves : Leaves become fleshy due to storage of water
or food materials. Such leaves are called storage leaves. They are usually
found in succulent plants. In plants like Aloe, Kalanchoe and Peperomia.
(vi) Reproductive leaves
: In some plants the
vegetative propagation is carried out by the production of epiphyllous buds on
leaves. Such leaves are called reproductive leaves.
The epiphyllous buds when come in contact with soil develop into new plants.
(vii) Absorbing leaves
: In some rootless,
aquatic plants, the submerged leaves are modified into root like structure to
absorb water and mineral salts. Such modified leaves are called absorbing leaves. e.g., Utricularia.
(viii) Floral leaves : Floral parts such as sepals, petals, stamens
and carpels are modified leaves. Sepals and petals are leafly stamens are
considered pollen bearing microsporophylls and carpels are ovule bearing
megasporophylls.
(ix) Cotyledons : The mature embryo shows either one
(monocotyledons) or two cotyledons, (dicotyledons). Cuscuta a parasite is included in dicotyledon. However
it has no cotyledon and many cotyledons, as in gymnosperms. These cotyledons
are considered as embryonic leaves which are the first leaves of a shoot
system.
(x) Trap leaves : The trap leaves are also called insectivorous
leaves or carnivorous leaves. Plants having trap leaves usually grow in
nitrogen-deficient soils (boggy soils). They have poorly developed root system.
These plants get their nitrogenous requirement by capturing the insects. To
attract, capture, kill and digest the insects, the leaves are modified into
trap leaves.
Question 1 : A leaf is identified from
(a)
Flat green
lamina
(b)
Presence of leaf blade and petiole
(c)
Presence of axillary
bud
(d)
Occurrence of chlorophyll
Ans: c
Question 2 : Leaves fall off from branches in winter due to
(a)
Formation of abscission layer
(b)
Shortening of day length
(c)
Fall in temperature
(d)
All the above
Ans: a
Question 3 : Finely dissected leaves occur in
(a)
Free floating plants
(b)
Rooted floating leaved plants
(c)
Submerged
plants
(d)
Emerged plants
Ans: c
Question 4 : In Tamarind (Imli) the pinnate leaf is
(a)
Tripinnate
(b)
Bipinnate
(c)
Paripinnate
(d)
Imparipinnate
Ans: c
Question 5 : Presence of sheathing leaf base and ligule are characteristic of
(a)
Cycas leaf
(c)
Banana leaf
(d)
Grass leaf
Ans: d
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