3. I. Unicellular Algae
Unicellular algae refers
to the green, red and
brown algae. This algae
is in the class of diatoms
and chrysophytes.
4. Spirogyra
Spirogyra are a free-floating
filamentous form of green algae,
commonly seen as bright green
masses on the surfaces of
freshwater ponds and ditches. The
name of this algae is derived from
the spiral arrangement of
chloroplast in its filament-like
body.
5.
6.
7. What is the shape of
each cell?
Spirogyra cells are cylindrical in shape and are
connected end to end, forming a long,
unbranched filament-like structure.
8.
9. What occupies most of
the volume of the cell?
A large vacuole occupies
most of the volume of the
cell
10.
11. Conjugation
In scalariform conjugation, the cells of adjacent
filaments develop small tube-like structures called
'conjugation tubes', which fuse together to form a
'conjugation canal'. The cytoplasm of the male cell
flows through this canal to the female cell and fuses
with the latter's cytoplasm. The next step is the fusion
of gametes (mature sexual reproductive cell with a
single set of unpaired chromosomes) to form the
zygospore. The zygospore, which is thick-walled, is
brownish in color and is oval or circular in shape. The
spores are released to form new filaments. This type of
conjugation gives the algae a ladder-like appearance,
due to the interlinking of filaments.
15. Chrysophyta – Golden
brown algae
a division of mostly freshwater
eukaryotic algae having the
chlorophyll masked by brown or
yellow pigment; yellow-green and
golden-brown algae and diatoms
16. Diatoms
Diatoms are delicate unicellular
organisms that have a yellow-brown
chloroplast that enables them to
photosynthesize. Their cell walls are
made of silica almost like a glass house.
The construction of the cell wall, called
the frustule, consists of two valves that
fit into each other like a little pill box.
17.
18. Diatoms
•Diatoms have many shapes
•Their accessory pigments fucoxanthin
and β (beta) carotene give them a
characteristic golden color.
•Color is more obvious on the center
portion.
19. II. Euglenoids
Euglenoids are single cellular
organisms with euglena like features.
They do not have cellwall but do
possess pellicle. They have flagella
and occur in fresh water. They have
specific euglenoid movements which
are creeping movements followed by
contraction and expansion of the
body. Reproduction is acoomplished
by means of binary fission
20. Euglena
Euglena is a single-celled
microscopic algae. It is a unique
organism that can accumulate
nutrients by photosynthesis and
move like an animal by twisting
itself.
Euglena is discoidal in shape.
However, it can also be ovate,
elongate or U-shaped.
21.
22.
23. •Euglena move by a flagellum (plural ‚ flagella),
which is a long whip-like structure that acts
like a little motor. The flagellum is located on
the anterior (front) end, and twirls in such a
way as to pull the cell through the water.
•Toward the posterior of the cell is a star-like
structure: the contractile vacuole. This
organelle helps the cell remove excess water,
and without it the euglena could take in some
much water due to osmosis that the cell would
explode.
24.
25. III. Protozoans
Protozoans are the “animal-like”
members of Protista, a paraphyletic
grouping of mostly single-celled
eukaryotic organism that feed
heterotrophically and exhibit diverse
mechanisms of mobility. They can
contain more than one nucleus and
developed organelles
28. Conjugation
sexual process in which two
organisms of the same species
exchange nuclear material during a
temporary union completely transfer
one organism’s contents to the other
organism or fuse together to form
one organism