Algae Lecture 2 PDF

Summary

This document provides a detailed overview of algae, covering their general characteristics, reproduction methods (vegetative/asexual and sexual), and different life cycle patterns. The document also includes various forms like unicellular, colonial, filamentous, siphonaceous, and parenchymatous algae, and classifications.

Full Transcript

THE ALGAE
General characteristics
The study of algae is called Phycology
 The algae are chlorophyll bearing organisms hence are
able to make their own food.
 They have a plant body with no differentiation into
roots , stems and leaves – this is called a thallus(sing.)
thalii (plural)-thalloid
 They have unicellular or multicellular sex organs
ALGAE CONT’D

 The thallus is non-vascular and thus has no vascular
tissue
 They are aquatic, both marine and fresh water, on and
within soil, on moist stones and wood as well as in
association with fungi and certain animals.
 Many algae contain secondary pigments such as
carotenes which may be brown, yellow, xanthophylls
and phycobillins
ALGAE CONT’D
 They have eukaryotic type of cell except in the blue
green algae which has prokaryotic cell.

 Have rigid cell walls composed of cellulose except in
diatoms whose cell wall is composed of silica

 They exhibit ranges of alternation of generation –
sporophyte which is spore bearing and diploid and
gametophyte which is haploid and produces gametes.
ALGAE CONT’D
 Algae range in forms such as unicellular, colonial,
filamentous, siphonaceous and parenchymatous.
Unicellular forms
 May be motile –have flagella e.g Euglena has a single
flagellum while Chlamydomonas has two flagella
 Non motile – no flagella , no cytoplasmic projections
e.g Chlorella
 Amoeba-like – lack rigid cell wall, have cytoplasmic
projections e.g Rhizochrysis
 Unicellular

Rhizopodial – Rhizochrysis Non-motile-Single cell-Chlorella
 Unicellular

Chlamydomonas
Motile-unicellular, Euglena
Colonial forms
Flagellate colonies.
Motile flagellate cells aggregate to form simple colonies
in some species. In most cases the cells are embedded
in mucilage with only flagella projecting.
Volvox sp. A vegetative colony
Colonial forms cont’d
Non-flagellate colonies
 Non-motile cells aggregate to form a colony

 It forms multinucleate. In some cases the non-motile
cells are embedded in mucilage.
Filamentous forms
 Filamentous (Unbranched)
 Formed by repeated cell division in one plane without
separation of the daughter cells.
 They may be free-living, attached initially,or
aggregated into colonies.
Single filamentous unbranched colony
Filamentous forms cont’d
 Filamentous (Branched)
 There are two main types of thalli.
 (i) a simple branching system attached to the
substratum by a basal disc secreted by the lowest cell
 (ii) the heterotrichous type with a basal attachment
system of filaments giving rise to many upright
branches.
 Heterotrichous type
Simple branching type
Siphonaceous forms
Siphonaceous thalli
 The simplest organization include a small unbranched
vesicle containing a central vacuole and peripheral
cytoplasm in which the chloroplasts are located.
 An irregular branching system with rhizoids and
occasional cell walls cutting off old siphons is also
found.
Siphonaceous type
Parenchymatous forms
Parenchymatous thalli

 This forms a paper-like thalli or tubular-like thalli.
 A dichotomously branched parenchymatous thallus is
forms of larger inner cells sandwiched between outer
cells.
REPRODUCTION
 REPRODUCTION IN ALGAE
 There are two common methods; (a) vegetative/
asexual, (b) sexual.

Vegetative/Asexual reproduction
 By cell division.
The mother cell divide and the daughter cells are
produced, which become new plants.
REPRODUCTION CONT’D
Fragmentation.
 The plant body breaks into several parts or fragments
and each such fragment develop into an individual.

Hormogone formation.
 When the trichomes break in small pieces of two or
more cells such piece is called hormogone.
 Each hormogone develops into a new plant.
REPRODUCTION CONT’D
 Adventitious thalli.
 Certain special structures of thalli are formed which help in
vegetative propagation. They are known as propagule.

 Tubers.
 Usually these bodies are rounded and filled with abundance
of starch.

 Bulbils. Small bud-like structures usually develop on the
rhizoids.

 Akinetes. Thick-walled, dormant, often elongated spores.
Formed during dry season.
REPRODUCTION CONT’D

 Zoospores.
 They are formed from certain older cells of the
filaments.
 zoospores escape from the mother plant and is
able to develop into a new plant. They are normally
formed in favourable conditions. The zoospores
are motile and may be biflagellate or
tetraflagellate.
REPRODUCTION CONT’D
Aplanospores
 These are zoospores that have lost means of motility –
no flagella.

 Normally develop in unfavorable conditions. Each
spore is surrounded by a wall.
REPRODUCTION
(b) Sexual reproduction
CONT’D
 This is an advanced method of reproduction shown in
all groups of algae except in the blue-green algae.
 There are three types;

 Isogamy; It is fusion of similar motile gametes. These
gametes are morphologically similar but genetically
different. The gametes are called isogametes and the
organisms are isogamous.
REPRODUCTION CONT’D
 Anisogamy ;The motile gametes taking part in fusion
are morphologically different in size. The smaller one
is referred to as the male and the large one is the
female.

 Oogamy. One gamete is large and non-motile and is
referred to as the egg- the female gamete
 The other gamete is usually small and motile-male
gamete- sperm
REPRODUCTION CONT’D
Conditions for sexual reproduction
 Takes place after considerable accumulation of food
material and
 the climax of vegetative activity is over slowed.
 Suitable pH is necessary.
 Optimum temperature is necessary.
 Presence of appropriate light.
LIFE-CYCLE PATTERNS
Haplontic type/zygotic meiosis.
 In such cases the somatic phase (plant) is haploid
(Gametophyte) while the diploid phase (sporophyte) is
represented by zygote.

 During germination the zygote (2n) divides
meiotically producing haploid (n) zoospores, which
develop into individual plant.

 Here the unicellular or filamentous gametophyte (n)
alternates with one-celled zygote or sporophyte (2n).
Life-cycle patterns cont’d
 The haploid filamentous plants are known as
haplonts which reproduce asexually by zoospores or
aplanospores producing the individals like parents.
Haplontic type
Life-cycle patterns cont’d
 Diplontic type/Sporic meiosis.

 It is reverse of haplontic type. The somatic phase
(plant) is diploid (sporophyte 2n) while the haploid
phase (gametophyte n) is restricted to gametes which
are produced by meiotic division.

 After a gametic union, a diploid zygote is formed,
which develop into a diploid (sporophyte) plant by
mitotic division.
Diplontic/sporic type
Life-cycle patterns cont’d
Isomorphic type:
 In this type there are two exactly similar somatic
phases (morphologically identical plants) showing
alternation of generations.

 Here the one phase is diploid (sporophyte, 2n) while
the other haploid (gametophyte, n).
Life-cycle patterns cont’d
 In such cases, the zygote develops into a diploid
multicellular plant (sporophyte).
 through meiosis, zoospores (meiospore) are formed.
 These zoospores (n) develop into haploid plants
(gametophyte n).
 The haploid plants produce gametes (n) which after
fusion develop into zygote (2n) which grows into a
sporophyte phase
Isomorphic type
Life-cycle patterns
Heteromorphic type :
cont’d
 This pattern of life cycle is exactly like the isomorphic
type only with the difference that the alternating
haploid (n) and diploid (2n) somatic phases (plant)
are morphologically different.

 Diploid multicellular sporophytic plants produces
haploid zoospores (meiospores) by meiosis.
Life-cycle patterns cont’d
 These zoospores develop into gameophytes.

 Each gametophytic plant (n) produce gametes which
after their union form a zygote which later develops
into a diploid sporophytic plant by mitotic division.
Heteromorphic type
CLASSIFICATION OF ALGAE
The primary classification of algae is based on
certain morphological and physiological features.
 Pigment constitution of the cell.
 Chemical nature of stored food materials
 Nature and the number of flagella.
 Chemical composition of the cell wall.
 Presence or absence of a definitely organized nucleus
in the cell.
THE END