SPIROGYRA
Systematic positions:
Kingdom: Plantae
Phylum : Chlorophytes
Class : Chlorophyceae
Order : conjugales
Family : Zygnemaceae
Genus : Spirogyra
Common name : Pond-scum/ Pond silk
Occurance:
Spirogyra
is at large genus consisting of about 300 species and is cosmopolitan
in distribution. They are found in fresh water such as pools, ponds,
lakes, ditches etc and also in slow running water of rivers and streams.
They occur as free floating bright green masses in the water but few
species such as spirogyra dubia, spirogyra affinis, spirogyra rhijoides develop
specialized structure ‘hapteron’ with the help of which they can get
attached with substratum. They are slippery in nature so are commonly
known as Pond Silk or Water silk.
Vegetative structure:
The
plant body of spirogyra is a gametophytic thallus which is elongated
cylindrical, unbranced silky thread like structure known as filament.
Eacj filament consists of numerous elongated rectangular cells joined
end to end in a row. The cells are separated by a partition wall known
as Septum.
Each cell can be differentiated In to two reasons;cell wall and protoplast.
Cell
wall is the outermost protective double layere structure. The inner
layer of which is made of cellulose and the outer layer contains
pectose. The outermost lining of Pectose turns into Pectin and get
dissolved in water to form Mucilage which surrounds the filament and
forms Mucilagenous sheath.
The protoplast contains Plasma membrane,cytoplasm, single large centrally located vacuole and Chloroplast containing Pyrenoids.
The plasma membrane lies inner to the cell wall and semi permeable in nature(allows the passage of selective substance).
The
granular cytoplasm is distributed in the peripheral region of the cell.
Single large vacuole is bounded by Tonoplast snd containing watery
fluids. Cell sap occupies the central part of the cell. Spirally coiled
ribbon shaped chloroplast containing Pyrenoids are present in position.
The number of chloroplast ranges from 1-16 depending upon the species.
The rounded Proteineous structures known as Pyrenoids lie equidistant
from each other inside the chloroplast. They contain Central core of
starch surrounded by Protein plates and help in formation and storage of
starch. Single prominent nucleus lies at the center of the cell which
is held in position by the thin delicate, radiating cytoplasmic strands.
Reproduction:
All the three methods of reproduction i.e.
1. Vegetative reproduction
2. Asexual reproduction
3. Sexual reproduction
Vegetative reproduction:
During
favorable conditions spirogyra reproduces vegetatively by the method of
Fragmentation. Fragmentation is brought about due to the mechanical
injuries caused by the biting of the dished and other aquatic animals or
due to the change in temperature , PH , and other aquatic conditions or some intercalary sells of the filament (intermediate cells).
Fragmentation
involves the breakage of filament into small pieces known as fragments
each of which can develop into new filament by the process of repeated
cell division and growth.
Asexual reproduction:
During unfavorable conditions some species of spirogyra reproduce asexually though rarely by the formation of –Akinetes
-Aplanospores
-Azygospores/Parthenospores
Akinetes:
Few species of spirogyra such as spirogyra farlowii reproduce asexually
by the formation of Skinetes. In this method the protoplast of few
cells of the filaments lose water get contracted and round off and
develop thick walls around themselves due to the extra deposition of
cellulose and Pectin and form the akinetes which are thick walled
resting spores that can develop into new filament with the coming of
favourable conditions.
Aplanospores:
Eight species of spirogyra such as spirogyra aplospora,spirogyra
kanalae form Aplanospores during asexual reproduction. Here, the
protoplast of the cell after forming rounded structure develop thin
cellulosic walls around themselves and form the aplonospore which are
the thin walled,non motile spores that can germinate into new filament
with the coming of favorable condition and after the decaying of the
mother filament.
Azygospores/parthenospores:
in
this method at the beginning of conjugation the protoplast of the
conjugating cells form gametes but due to some Physiological and
atmospheric conditions these gametes fail to fuse and start functioning
as the asexually reproducing spores known as Azygospores of
Parthenospores.
e.g Spirogyra mirabilis
Spirogyra varians
Spirogyra rhizoides
Sexual reproduction:
Sexual
reproduction in spirogyra occurs by the method of conjugation.
Conjugation is the process of fusion of two gametes out of which one
acting as the male gamete passes through the conjugation tube to the
female gamete. In spirogyra all the cells of the filament can form the
gametes which are Morphologically similar and are referred to as Isogametes.
This phenomena of sexual reproduction is known as Isogamous type of
sexual reproduction. But at the time of conjugation one of the two
isogametes shows motility and is considered as the male gamete. This
phenomenon is referred to as Physiological anisogamy.
In spirogyra,two types of conjugation occurs:
1. Scalariform and
2. Lateral conjugation
Scalariform
conjugation occurs between the two filaments whereas Lateral
Conjugation occurs between the adjacent cells of single filament.
Therefore after the completion of Scalariform Conjugation the cells of
one filament appear empty and those of the another filament contain
Zygospores, after completion of Lateral Conjugation empty and zygospore
containing cells alternate in the filament.
Scalariform conjugation:
Occurs between the two filament and seen in heterothallic/dioeious species
1. Two
filament of opposite strands come closer and lie parallel to each other
throughout their length and get surrounded by commom Mucilagenous
sheath(Due to attraction)
2. The opposite cells of two filaments produce small papillae outgrowth /Processes from their opposir\te walls.
3. These papillate outgrowth increase in their size and join through their anterior end. By this time filament secretes enzyme cytase.
Two filament secrete the enzyme cytase due to the activity of which the
partition wall is sissolved between the two process forming a
continuing passage conjugation tube. The ladder like structure is formed
due to conjugation of many cells. Same time the protoplast get
contracted forms gametes known as Gametangia. Thus, forms gametes
are Isogametes in gametangia(bag to hold gamete) out of the isogametes
one gamete shows motility and can be determined as male gamete. The male
gametes enters through conjugation and enters the female gametangia and
fude with femate gamete and forms Zygote. This zygote after the
secretion of thick wall forms Zygospores.
Lateral conjugation:
Occur rare type of conjugation and seen in Homothallic/Monoecious species. It is of two type direct and indirect.
Indirect: On
the lateral side of filament above the septum the two adjacent cells
gives papillate out growth. Cytase is secrete by the cells the partition
wall get dissolved forming conjugation pasage due to the activity of
enzyme cytase. Simultaneously the protoplast of the adjacent develops
into the gamete which is Isogametes. The cells are referred as
Gametangia.
After
sometime one gamete out of two gamete shows motility and determined as
male gamete. The male gamete passes through conjugation tube and enters
the female gametangia and fuses with female gamete to form zygote then
forms thick walled Zygospore.
Direct: (Primitive type of conjugation)
During the time of conjugation few attached species shows.
Two
adjacent cells which are going to conjugate. The lower cell get
enlarged and form barrel shaped structure termed as Female gamete.
The
upper cell (male gametangia) forms male gamete which are some what
elongated cylindrical and pointed lower end and here conjugation tube
are not forming. The male gamete with pointed end directly pierces the
septum and forms a hole in septum and passes through the hole into
female GAmetangia where it fuse with female gamete to form gametes. The
zygote after developing thick wall develops into zygospore.
Zygospore:
Zygospore
represents the only diploid stage in the lifecycle of spirogyra and it
is yellowish brown ellipsoidal structure having diploid nucleus and
covered by three layered wall : - the outer exospore/exine
- The middle mesospore/mesine
- th innermost Endospore/ intine
The
zygospore due to the thick wall can withstand long period of dry and
dessication. They are liberated after the destruction of mother cell or
mother filament and they remain at the bottom of water body. With the
coming of rainy season,the zygospores start to germinate. Before
germination,the diploid nucleus divides meiotically and form four
haploid nuclei. Out of which three degenerate and one remains at
functional nucleus. At the time of germination the exospore and
mesospore rupture and the endospore along with functional nucleus comes
out as single cell germinating tube which immediately divides into two
celled structure. The basal cell forms the rhizoidal cell and the upper
cell by repeated division and growth develops into new spirogyra
filament.
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