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SELAGINELLA
https://madanacademy.com/ SYSTEMATIC POSITION ::
Kingdom Plantae
Subkingdom Embryophyta
Division Tracheophyta
Sub Division Ligulopsida
Class Lycopsida/Lycopodineae
Order Selaginellales
Family Selaginellaceae
Genus Selaginella
Note : Common name – [Little club moss or spike moss]
HABITAT & HABIT ::
Mostly species are found in tropical rain forest
The common Indian species are Selaginella
kraussina, S. pallidissima and S.oregana etc.
S. pilifera, S. rupesteris and S. lepidophylla are the
common xerophytic species and are called
resurrection plant
Note : Xerophytic species of selaginella show
cespitose habit. They become ball like during dry
season and again become green and fresh when
moisture is available. So these are called
resurrection plants. Selaginella bryopteris is known
as "Sanjivani Plant".
EXTERNAL MORPHOLOGY ::
Main plant body is sporophyte.
Plant body is distinguished into three parts Root,
Stem and Leaves. Rhizophore also found in some
species.
ROOT : Primary root are ephemeral and the adult
plant has adventitious roots. Root hairs are unicellular.
• These are branched with root hairs.
STEM : Stem is green and cylindrical. Stem is prostrate and laterally branched (in some species) and erect
and dichotomously branched.
• Adventitious roots arise from the stem and stem is covered by leaves.
• A structure arise from the dichotomous [bifurcation] point of stem which is colourless without
chlorophyll, cylindrical, rootcap less and elongated is called Rhizophore
MORPHOLOGICAL NATURE OF RHIZOPHORE :
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• Rhizophore arises from the dichotomous point of stem. It is Non-chlorophyllous colourless, long
cylindrical and thread like structure. Rhizophore term given by Nageli.
• It grows toward the soil and it is bifurcated. It provides support to the plant and help in absorption
of water and minerals.
• Morphological nature of the Rhizophore of selaginella is still in question. The following three views
about its possible nature are–
(a) Rhizophore is a Root cap less root - According to Van Tieghem, Harvey Gibson "rhizophore is
a root cap less root" because-
(1) It is positively geotropic in nature
(2) It is leafless
(3) Rhizophore is monosteleic like root.
(b) Rhizophore is leafless shoot – Pfeffer , Treub and Cusick, Bruchmann etc regards rhizophore a
leafless shoot because-
(1) Absence of root cap
(2) Absence of root hair
(3) It arises from bifurcation point of stem
(4) It is exogenous in origin
(c) Rhizophore is a newly formed organ – According to Goebel and Bower the rhizophore is neither
shoot nor a root but organ sui-generies.
LEAVES : The leaves of selaginella are microphyllous, sessile and simple. Their shape varies from ovate
to lanceolate. The leaves are mostly Amphistomatic (Exception S. martensii-Hypostomatic)
• The vegetative leaf as well as sporophyll has a small, membranous projection on its adaxial
(upper) surface, close to the base. This projection is known as ligule.
• The basal part of the ligule has a distinct hemispherical foot-like structure, called glossopodium.
The ligule is embedded at the base of the leaf in a pit-like structure known as ligular pit.
• Leaves are dimorphic or Heterophyllum. The megaphylls are develop from ventral/Abaxial/
lower surface of the stem and microphylls develop from dorsal/adaxial/upper surface of the
stem.
• S.spinulosa, S.rupestris, S.pygmea and S.oregana have monomorphic leaves.
Function of ligule :
• According to some scientists ligules are associated with water absorption and secretion and thus
prevent dessication of the shoot.
• Ligules are concerned with upward movement of inorganic solutes.
Special Point :
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1. A distinctive feature of selaginella stem is the
presence of radially elongated endodermal cells,
called trabeculae. Between these cells large
intercellular spaces are present.
2. Trabeculae are absent in the stem of xerophytic
species of selaginella.
REPRODUCTION ::
The sporophyte of Selaginella reproduces vegetatively and by spores.
(1) Vegetative Reproduction : It is rare in selaginella. Its occurs by following method.
1. Fragmentation 2. Resting Bud 3. Tuber 4. Apogamy
1. Fragmentation : It occur during moist condition.
2. By resting Bud : Terminal leaves overlapped to each other and become fleshy.
• They form resting bud. They are formed for vegetative reproduction. eg., Selaginella chrysocaulos.
3. By Tuber : Subterranean branches of S.chrysorhizos enters in substratum. Their terminal and
swollen end form tuber. During favourable condition they form new plant.
4. Apogamy : Sometime gametophyte directly develops in sporophyte. These sporophyte are haploid.
(2) Reproduction by spores
• Selaginella is a heterosporous Plant. It produces two types of spores – megaspores and
microspores.
(i) Strobilus or cone -
• In most of the species of Selaginella sporophylls are aggregated at the apex of the main stem or
lateral branch and forms compact cones, called strobili. (Singular - strobilus)
• The sporophylls are spirally arranged around a central axis.
• The sporangia are borne singly in the axils of sporophylls.
• The sporangia are strictly dimorphic.
• There are many microspores in a microsporangium but a megasporangium usually has 4 megaspores.
• The megaspores form female gametophytes on germination and the microspores give rise to male
gametophytes.
(ii) Distribution of micro and megasporangia in strobilus
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• In most of the species of Selaginella both micro and megasporangia are found within the same
strobilus.
DEVELOPMENT OF SPORANGIUM (Eusporangiate type)
(a) Microsporogenesis : Each microspore mother cell divide meiotically to form haploid tetrad sproes in
large numbers [128 or 256]
(b) Megasporogenesis:
• All the cells of megasporangium are degenerate except only one sporocyte.
• This functional cells is called megaspore mother cell. This cell divide meiotically to form four
megaspores.
• S. monospora & S. rupestris bears only single megaspore in megasporangium.
MICROSPORES AND DEVELOPMENT OF MALE GAMETOPHYTE:
1. Microspore :
• The microspores are small spherical structures, ranging
0.015-0.06 mm in diameter. A microspore is surrounded by
a thick ornamented exine and a relatively thin intine.
• The spore has a single haploid nucleus and granular
cytoplasm, rich in fatty substances (about 35 %) and
chlorophyll absent.
2. Development of male gametophyte :
• The microspore germinate inside the microsporangium and shed from the microsporangium at
13-celled stage.
• The first division of the microspore is asymmetrical and as a result a small lenticular prothallial
cell and a large antheridial initial is established. The prothallial cell does not divide further.
• The first division of the antheridial initial is nearly at right angles to the prothallial cell. It result in
the formation of two antheridial cells of almost equal size. Both these cells divide by a vertical
wall (at right angles to the first vertical division). Thus, at this stage the gametophyte consists of
five cells (four cells derived from the antheridial initial and a prothallial cell). The two basal cells,
derived from the antheridial initial, do not divide further, whereas the upper two daughter cells
divide repeatedly and form ten cells. At this stage the gametophytes has 13 cells. Of these, four central
cells function as primary androgonial cells and eight peripheral cells function as jacket cells.
• The male gametophyte shed from the microsporangium at 13-celled stage. (1- prothallial cell, 4-
primary androgonial cells and 8- jacket cells)
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• The four central primary androgonial cells of the male gametophyte divide repeatedly forming a
mass of 128-256 antherozoid mother cells or androcytes. Each androcyte by metamorphosis
converts into a spindle-shaped/comma shaped biflagellate antherozoid.
• With the formation of antherozoids, the jacket cells decompose and form a mucilaginous substance.
The antherozoids float in this substance. Until this stage the male gametophyte is completely enclosed
within the wall of the microspore. The gametophyte is not set free and is dependent on the parent
sporophyte for nutrition.
Note :
1. Unlike other pteridophytes, vegetative prothallus are not formed in selaginella.
2. The antherozoids of Selaginella are the smallest among the vascular plant.
3. Development of gametophyte from spore start before dehiscence of spore, thus it is known as
Precocious or In situ germination.
MEGASPORE AND DEVELOPMENT OF FEMALE GAMETOPHYTE
• Their diameter varies from 0.15 to 0.5 mm
• The megaspores are arranged in tetrahedral tetrads.
• The wall of the megaspore is differentiated into three distinct layer
– the outer exospore, the middle mesospore and the inner
endospore.
• The megaspore has a single haploid nucleus, surrounded by granular cytoplasm rich in fatty substances
(about 48 %)
• The development of female gametophyte starts even when
the megaspore remain present in the megasporangium.
• By repeated free nuclear division followed by cell wall
formation female gametophyte is differentiated into upper
region called female prothallus and lower region called
storage region which are separated by diaphragm.
• A functional cell of the female prothallus acts as archegonial initial.
Note : The mature archegonium of Selaginella has long neck (consisting of eight cells, in two tiers
of four cell each), a neck canal cell, a venter canal cell and an egg.
FERTILIZATION :
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• Fertilization usually takes after the female gametophyte has fallen in the soil but in some species
(e.g. S. rupestris) it may occur while the female gametophyte is still with in mega sporangium.
• Water is essential for fertilization. Just before the fertilization the neck and ventral canal cell
disorganize and to form a mucilage which contain some chemotactic substances.
• Many biflagellated antherozoids enter into the neck of archegonium by chemotactic movement
and one antherozoid fuse with the egg, resulting in the formation of zygote.
Note : In few species like S. rupestris archegonia are fertilized when enclosed in the megasporangium
which is attached with spike hence approach towards the seed habit of Angiosperm. Heterospory is a
pre-requisite condition for the seed habit.
EMBRYO DEVELOPMENT ::
The diploid zygote is the mother cell of the sporophytic generation.
It divides transversely, establishing an epibasal (upper) suspensor cell and a hypobasal (lower)
embryonic cell. As development proceeds, the suspensor cell repeatedly divides to form a suspensor,
which pushes the developing embryo deep into the female gametophyte.
The rest of the embryo develops from the embryonic cell. It divides by two vertical wall at right angles
to each other and thus a four-celled embryo is formed. In these, one cell divides by an oblique vertical
wall and thus an apical cell with three cutting faces is established. This eventually functions as the
apical cell of the embryonic shoot.
The remaining three cells of the 4-celled embryo and the sister cell of the apical cell divide
transversely to form two tiers of four cells each.
The cells of both the tiers divide irregularly, forming a multicellular embryo. Usually the cells of the
lower tier divide more rapidly than the upper tier.
The derivatives of the lower tier form the foot. The foot acts as a haustorial organ; its main function is
to absorb nutrition for the developing sporophyte from the female gametophyte.
Two cells of upper tier acts as apical cell of cotyledon and forms two ligulated cotyledon.
The part of the embryo posterior to cotyledons develops into hypocotyledonary part of the stem. The
stem grows with the help of the apical cell of the embryo.
After the formation of cotyledons and stem, the apical cell of the root differentiates on the lateral
surface of the foot. The derivatives of this cell develop into a root-like structure, called rhizophore.
Roots, infact, develop at the apex of the rhizophore.
In early stages of development the young sporophyte is attached to the megaspore and derives its
food from the female gametophyte with the help of its foot. But after the establishment of root and stem,
the sporophyte becomes independent.
LIFE CYCLE : DIPLO-HAPLONTIC ::
SELAGINELLA EXERCISE
Q.1 Main plant body of the selaginella is :
(1) A gametophyte (2) A sporophyte
(3) Half gametophyte (4) Haploid phase
Q.2 An evolutionary characteristic is found in
selaginella: [MP PMT 1997]
(1) Presence of ligule
(2) Heterophilly habits
(3) Sporangia present in cone
(4) Heterospory
Q.3 The number of megaspores in Selaginella
rupestris is:
(1) One (2) Two
(3) Three (4) Four
Q.4 Which is the epiphytic species of
selaginella
(1) S. Lepidophylla (2) S. Oregana
(3) S. kraussiana (4) S. rupestris
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Q.5 The 13-celled male gametophyte of
Selaginella has
(1) 10 cells of the antheridium + 1
prothallial cells
(2) 12 cells of the antheridium + 1
prothallial cells
(3) 9 cells of the antheridium + 4 prothallial cells
(4) 8 cells of the antheridium +5 prothallial cells
Q.6 Which organ of the selaginella is "Organ
sui-generis"-
(1) Root (2) Stem
(3) Ligule (4) Rhizophore
Q.7 Which type of stele is found in rhizophore
of selaginella
(1) Monarch (2) Diarch
(3) Triarch (4) Polyarch
Q.8 Rhizophore is not a true root because it is
(1) Endogenous (2) Exogenous
(3) Intermediate (4) None of above
Q.9 Glossopodium is found in selaginella-
(1) In root (2) In rhizophore
(3) In stem (4) In leaves
Q.10 How many cotyledons are present in
embryo of selaginella
(1) Two cotyledons (2) One cotyledons
(3) Many cotyledons (4) Cotyledon absent
Q.11 By which type of leaf is found in
selaginella
(1) Aligulate and microphyllous
(2) Ligulate and megaphyllous
(3) Ligulate and microphyllous
(4) Aligulate and megaphyllous
Q.12 In which of the following trabeculated
endoderm is found
(1) Funaria (2) Selaginella
(3) Monocots (4) Dicots
Q.13 By in which character selaginella is alike as
Gymnosperm
(1) In heterospory
(2) In vascular tissues
(3) Cone
(4) All of the above
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Q.14 Which structure is developed from
microspore of the selaginella
(1) Male gametophyte
(2) Female gametophyte
(3) Male sporophyte
(4) Female sporophyte
Q.15 In which plant, male and female sporangia
are developed in same plant
(1) Dryopteris (2) Cycas
(3) Selaginella (4) Nephrolepis
Q.16 Selaginella is a type of plant
(1) Oogamous and homosporous
(2) Oogamous and heterosporous
(3) Isogamous & heterosporous
(4) Isogamous & Homosporous
Q.17 In which stage of the male gametophyte of
selaginella pollination take place
(1) 3 celled stage (2) 6 celled stage
(3) 13 celled stage (4) 2 celled stage
Q.18 By which plant seed habit originated-
(1) Moss (2) Little Club moss
(3) Pinus (4) Angiosperm
Q.19 How many cells of prothelial and
antheridial are found in male gametophyte
of selaginella
(1) P4A9 (2) P2A11
(3) P1A12 (4) P8A5
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Q.20 Selaginella is associated with class-
(1) Psilopsida (2) Coniferopsida
(3) Lycopsida (4) Pteropsida
Q.21 When does meiotic division take place in
selaginella
(1) During gametes formation
(2) During spores formation
(3) During zygote formation
(4) During germination
Q.22 Selaginella differs from Pteris in which of
the following character
(1) Heterosporous condition
(2) Absence of seed
(3) Absence of vessels in xylem
(4) Need of water for fertilization
Q.23 In which species of the selaginella vivipary
is found
(1) S. rupestris (2) S. kraussiana
(3) S. Lepidophylla (4) S. oregana
Q.24 What is the function of foot of selaginella
(1) Fusion
(2) Water absorption
(3) Food absorption
(4) None of above
Q.25 Which species of the selaginella are known
as "Resurrection plants"
(1) Epiphytic species
(2) Aquatic species
(3) Mesophytic species
(4) Xerophytic species
Q.26 In selaginella, male gametes are
(1) Multi flagellate
(2) Aflagellate
(3) Biflagellate
(4) Mono flagellate
Q.27 In selaginella, trabeculae, represent
(1) Endodermis (2) Cortex
(3) Xylem (4) Epidermis
Q.28 Which one of the following is not fond in
selaginella
(1) Heterophylly
(2) Heterospory
(3) Homospory
(4) Ligulate leaf
Q.29 Club mass is common name of
(1) Lycopodium (2) Selaginella
(3) Funaria (4) Potamogeton
Q.30 Selaginella differ from moss in having-
(1) Well developed vascular system
(2) Swimming antherozoid
(3) Free gametophyte
(4) Archegonium
Q.31 Number of Prothallial cell in selaginella-
(1) 1 (2) 2
(3) 3 (4) 4
Q.32 In some pteridophytes and most gymnosperm
a temporary organ of cell filament is form
which pushes growing embryo in tissue of
female gematophyte, it is known as-
(1) Strobilus (2) Tapetum
(3) Suspensor (4) Trabeculae
Q.33 Which of the following is essential for seed
habit-
(1) Free gametophyte
(2) Dependent sporophyte
(3) Heterospory
(4) Haploid life cycle
Q.34 Megasporophyll of selaginella is equivelant
to which structure of angiosperm-
(1) Carpel (2) Stamen
(3) Ovule (4) Leaf
SELAGINELLA
Answer Key
Ques. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
Ans. 2 4 1 2 2 4 1 2 4 1 3 2 4 1 3 2 3 2 3 3
Ques. 21 22 23 24 25 26 27 28 29 30 31 32 33 34
Ans. 2 1 1 3 4 3 1 3 1 1 1 3 3 1
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