plant kingdom [2015]
TRANSCRIPT
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KINGDOM PLANTAE
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OUTLINE OF THE KINGDOM PLANTAE
Two basic groups:-
NON-TRACHEOPHYTES
or non-vascular plants:
TRACHEOPHYTES
or vascular plants:
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Tracheophytes
• are distinguished by conducting tissues:
xylem and phloem
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Mosses sometimes have cells
which help water move through
the plant, but not tracheids.
Why is the term „non-tracheophyta‟ more
suitable than „nonvascular‟ to describe mosses?
TS „stem‟ of a moss
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PLANTAE
(EMBRYOPHYTA)
NON VASCULAR
(NON TRACHEOPHYTA)
Liverworts, Hornworts, Mosses.
PHYLUM: (MOSSES)
BRYOPHYTA
VASCULAR
(TRACHEOPHYTA)
NON-SEED PLANTS
Club mosses, Horsetails, Whisk ferns, Ferns.
PHYLUM: (FERNS)
POLYPODIOPHYTA
SEED PLANTS
(SPERMATOPHYTA)
GYMNOSPERMATA
Cycads, Ginkgo, Conifers.
PHYLUM: (CONIFERS)
PINOPHYTA
ANGIOSPERMATA
(Flowering plants)
DICOTS MONOCOTS
PHYLUM: (FLOWERING PLANTS)
MAGNOLIOPHYTA[Pinophyta:
out of
syllabus]
Outline of the
Kingdom
Plantae
Division (old term) for
phylum in plants
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Flowering plants
Cone-bearing plants
Ferns and their relatives
Mosses and their relatives
Green algae ancestor
Flowers; Seeds Enclosed in Fruit
Seeds
Water-Conducting (Vascular) Tissue
Land plants:
evolved from green algae (Charales).
all descend from a single common
ancestor.
Evolution of Plants
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Chlorophyll a and b.
Starch as a storage product.
Cellulose in cell walls.
Plasmodesmata.
Plastids with double membrane
Chara
Land plants retain derived features
they share with green algae:
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A plant is a multicellular eukaryote that
contains cellulose cell-walls, plasmodesmata,
plastids with double membrane, contain
chlorophylls a and b and show alternation of
generation.
What is a „plant‟?
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The „land plants‟ are referred to as:
Embryophytes
A group of plants in which the embryo is
retained within the parental tissues
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Embryophyta
A seed
Embryo is
protected by testa
in flowering plants
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HOW DID LAND PLANTS ARISE?
• the green algal ancestors of
the land plants lived at the
margins of:
ponds
marshes
• it was from such a marginal habitat, which
was sometimes wet and sometimes dry, that
early plants made the transition onto land
forming a
green mat
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To a Terrestrial
Habitat
Shift from an
Aquatic Habitat
400 - 500 million
years ago
What are the problems of the transition from water
to land?
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1: Desiccation
waxy cuticle covers surfaces of
leaves.
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2: Reproduction
delicate sex cells must be
protected
embryos are contained within
a protective structure
thick spore walls contain the
polymer sporopollenin protects
the spores from:
desiccation
resists decay is present Pollen grains
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3) Support
air, unlike water, offers no support to the
plant body: lignified tissue evolved
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4) Nutrition
plants require light and
carbon dioxide for
photosynthesis, so at least,
a part of the body must be
above the ground
minerals and water, are at
ground level or below the
ground, and to make
efficient use of these, part
of the plant must be below
the ground in darkness
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5) Gaseous exchange for photosynthesis and respiration:
carbon dioxide
oxygen
stomata evolved to regulate gas exchange
must be exchanged with the
atmosphere rather than a
surrounding solution
Exchange
with water
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6) Environmental variables
Water, provides a very
constant environment.
A terrestrial environment is
much more subject to
changes in:
temperature
pH
ionic concentration
light intensity
Certain pigments that
afford protection against
the mutagenic UV
radiation evolved.
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Carotenoids protect plant against UV
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Plant Life Cycles
Plants exhibit an alternation of generations – the
diploid generation, or sporophyte alternates
with the haploid generation, or gametophyte.
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Alternation of generations:
is a universal feature of the life cycles of land
plants
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TWO features of alternation of
generations are:
1. The life cycle includes both a multicellular:
diploid stage
haploid stage.
2. Gametes are
produced by mitosis,
not be meiosis.
Meiosis produces
spores that develop
into multicellular
haploid organisms
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In the bryophytes, the gametophyte
is the DOMINANT GENERATION
The gametophyte is:
larger
longer-lived
more self-sufficient
The sporophyte is:
small
often brown
sporophyte
gametophyte
than the
sporophyte
by the time
spores are
released
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In the tracheophytes, the sporophyte
is the DOMINANT GENERATION
The sporophyte is:
larger
longer-lived
more self-sufficient
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The gametophytes in flowering
plants are:
• nutritionally dependent on the
sporophytes
• enclosed within the
sporophyte tissues
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Male and Female gametophytes
in Flowering Plants
Consist of only a small group of cells
entirely dependent on the sporophyte
Female gametophyte:
Contents of embryo sac
Male
gametophyte:
Contents of
pollen tube
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Male gametophyte in Flowering
Plants
In the seed plants, this evolutionary
trend :
has led to a condition in which water
is not required for the sperm to
reach the egg
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Female gametophyte in
Flowering Plants
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Alternation of generations
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Trends observed in the plant groups: 1) a reduction of the gametophyte
1-5 cm in
mosses
1 cm in ferns
A few cells in
flowering plants
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Gametangia are organs in bryophytes, ferns,
and gymnosperms where gametes are
produced.
Male gametangium:
antheridium (produces
sperm)
Sperm
cells egg
Female gametangium:
archegonium (produces
and retains egg cells)
2) A loss of multicellular GAMETANGIA (structures in
which gametes are produced. Singular: gametangium)
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No antherida and archegonia in Magnoliophyta.
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3) Increasing specialisation for life on land
Pollen eliminated the
liquid-water requirement
for fertilisation
Sperm cells swim
through a film of
water in mosses &
ferns Developing a means
of transport & support
Developing a
waxy cuticle
Developing stomata
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Summary of some features of the three
phyla making up the land plants
Phylum Evolutionary
state
Dominant
generation
Need water
for
fertilisation
Gametangia
Bryophyta Primitive Gametophyte Yes Present
Polypodiophyta More
advanced
Sporophyte Yes Present
Magnoliophyta Most evolved Sporophyte No Absent
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The non-vascular
(nontracheophyte) plants
no marine, some freshwater and most are
terrestrial
never evolved into large plants
have little or no water-transporting tissue
some mosses have cells
called hydroids:
die
provide channels in
which water can travel.
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The non-vascular
(nontracheophyte) plants
many grow in dense masses, through which
water can move by capillary action
the „leafy‟ structure
readily catches and
holds water that
splashes onto them
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„leaf‟ is one-cell
thick in mosses
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The non-vascular
(nontracheophyte) plants
plants are small enough that
minerals can be distributed
internally by diffusion
lack the leaves, stems and roots
that characterise the vascular
plants, although they have
structures analogous to each
Funaria
Plant body is called thallus
(plural: thalli)
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Funaria structure
„Leaf‟ spiral
arrangement
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The non-vascular
(nontracheophyte) plants
a waxy covering that retards water loss is:
absent in some species
very thin and so not effective in others
They grow in shady, moist
environments in dense mats.
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Polytrichum commune
is exceptionally tall.
40 cm
Stomata only in capsule
Cannot be tall:
- No lignin
- No proper anchorage
- No vascular system
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THE LIFE CYCLE OF MOSSES
(Phylum: BRYOPHYTA)
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BRYOPHYTA [Mosses] Funaria
Bryum
Tortula
Locally found
examples
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MOSS
Life
Cycle
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Diploid sporophyte is small
Capsule on a stalk (seta)
Meiosis produces spores
Green initially, but
becomes brown and non-
photosynthetic
Haploid gametophyte is dominant
- Large & long-lived
- Photosynthetic
- Mitosis produces gametes
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Gametophytes:
Multicellular gametangia form at the tips of
gametophytes
Archegonia
Female gametangia Antheridia
Male gametangia
paraphyses
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Paraphyses (singular: paraphysis): (sterile
hairs between sex organs) retain moisture
paraphyses
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Archegonium
Mature
Immature
Development of archegonia
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Antheridium
[immature]
Lid cell is removed to release the sperm
Sperm with two flagella:
biflagellated
Sperm are flagellated
and must swim to egg
through drops of
water.
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Development of the calyptra of a moss
Calyptra: remains of archegonium
Function: temporary, protective covering
a. Neck canal
cells present b. Archegonium
after fertilisation
c. Elongated seta
with calyptra on
top of it
d. Capsule fully
developed
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Spore dispersal
Gametophyte
Seta
Spore capsule
Peristome teeth
Operculum falls off
Calyptra
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Operculum is shed as water is lost
from annulus
Peristome
teeth
Annulus
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Peristome teeth bend outwards:
Spores sift through gaps.
Spore dispersal in dry conditions in Funaria.
Peristome teeth move in response to changes in
atmospheric humidity (hygroscopic).
Serve to ensure spore release only during favorable
conditions (dry for some species; moist for others).
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Apophysis:
swelling of the seta
immediately behind capsule;
stomata + photosynthesis in
some
Section through a capsule
Annulus:
helps regulate passage of
spores out of capsule;
undergoes hygroscopic
movements Annulus
Apophysis
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Spores germinate into a protonema
(plural: protonemata)
a branched, filamentous
structure unique to
mosses
protonema is the YOUNG
gametophyte (F)
Stages of spore germination
(A-C) and gametophyte
development (D-F)
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Some filaments are:
photosynthetic
rhizoids that anchor the
protonema.
Tips of photosynthetic
filaments form buds
which produce the leafy
moss shoots.
Bud
Rhizoids
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May, 2011 Paper 2
Use your knowledge of biology to describe the
significance of the following.
Bryophytes can only thrive in moist environments.
(5 marks)
Waxy cuticle is absent or
inefficient.
Male gametes are
flagellated and need water
as a medium to swim
towards female gamete.
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Tracheophytes
Vascular Plants
The xylem conducts water up
The phloem conducts food up/down
The sporophyte generation is dominant
Vascular Seedless Plants (Spores)
and
Vascular Seed Plants
Vascular Bundles
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The evolution of tracheid cells had
two important consequences:
2. The stiff cell walls provided
rigid structural support
1. Tracheids provided a pathway for
the long-distance transport of:
water
mineral nutrients
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POLYPODIOPHYTA :
Ferns
Locally found
examples
Dryopteris
Adiantum
English: Venus‟s-hair-fern
Maltese:Tursin il-bir
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Traits that ferns share with the seed plants:
1) a vascular system
2) sporophytes as the dominant life stage
3) stomata
Ferns retain some ancestral features:
1) free-living gametophyte,
2) no seeds
3) motile sperm that require water for fertilisation
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1. fronds – large leaves with complex vasculature
2. spores on underside of pinnules
Ferns are characterised by:-
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3. absence of seeds
4. requirement for water for the transport of the
male gametes to the female gametes
Ferns are characterised by:-
Multiflagellated
sperm
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Fig. 15 Fern sporophyte, detail of
frond structure.
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Root
For anchorage and to
absorb water + ions
Vascular
Rhizome
A horizontal underground stem
from which roots arise
Does not absorb water or ions
Vascular
Rhizoids
No vascular tissue
For anchorage
Minimal or no absorption
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Fern Sporophyte consists of:
Rhizomes, adventitous roots and fronds
pinna
pinnule
rachis
(main midrib)
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Sporophytes have true roots,
stems, and leaves.
Fern leaf starts development
as a coiled “fiddlehead.”
Detail of a fiddlehead
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Fronds (leaves) develop at the tip of the
rhizome as tightly rolled-up coils called
fiddleheads
-They unroll and expand
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Compared to mosses, the fern sporophyte
shows much greater:
Moss:
a few cm
Fern: up to 20m development,
Independence
dominance
Sporophyte can be
very large and
sometimes
survives for
hundreds of years.
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Sporangia occur on undersides of fronds in clusters
called sori (singular: sorus)
Each sorus contains many sporangia (spore cases)
sorus
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Sori in different species
Dryopteris
Adiantum
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Section through a sorus
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Section through a sorus
Indusium
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Section through a sorus
Thick-walled
annulus
Sporangium
Spores
Thin-walled stomium
has ruptured
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Mature fern sporangium
Sporangia walls are only one
cell thick, borne on a stalk.
Spore mother cells in sporangia form haploid
unicellular spores by meiosis.
The single-celled
spore is a resting
stage.
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Spores develop into a multicellular
haploid plant: the gametophyte
(prothallus) - by mitosis.
Stomium: a region of thin-walled cells in
certain spore-producing structures that
ruptures to release the spores.
Annulus: A ring or group of thick-
walled cells around the sporangia
of many ferns that functions in sp
ore release.
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Dryopteris sporangium
At maturity, the spores are
catapulted by snapping action.
Mature
sporangium
Dehisced sporangium
with annulus bent back
Annulus recoil
propelling spores
into the air
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Germinating fern spore
Spores can be blown by wind and develop
into gametophyte far from parent plant.
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The gametophyte is:
• a thin heart-shaped plate of cells about
1cm in diameter = prothallus (unique)
• is green and photosynthetic, anchored
by rhizoids
• lacks a cuticle and so survives only in
damp conditions
Rhizoid
1cm
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Dryopteris
150 cm in height in Dryopteris
1cm
Prothallus is
short-lived
Sporophyte is
long-lived Sporophyte and prothallus
are:
both photosynthetic
independent plants
Rhizoid
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Rhizoid
Fern gametophytes produce
antheridia and archegonia, on their
underside.
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When conditions are right, the sperm swims from
the male antheridium to fertilise the egg in the
archegonium
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A new adult (sporophyte)
fern plant will grow from the
prothallus
Sporophyte
Gametophyte
(prothallus)
Rhizoid
Root of young
sporophyte
Rhizoids
The sporophyte
continues to grow
while the
gametophyte dies.
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Ferns are well-suited to moist and shaded
areas, but do not do well in arid habitats. Give
TWO reasons.
1. Sperm need water to swim in.
2. Gametophyte lacks a cuticle.
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Fern
Life
Cycle
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HOMOSPORY vs HETEROSPORY
The most ancient vascular plants were homosporous - a single type of spore.
The spores produce one type of gametophyte that has both archegonium and antheridium.
Mosses & most ferns = HOMOSPOROUS
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Megaspore
develops into female
gametophyte:
megagametophyte
are produced in
small numbers in
megasporangia
Heterospory: 2 types of spores-Angiosperms
Microspore
develops into male
gametophyte:
microgametophyte
are produced in
large numbers in
microsporangia
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Homospory
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Heterospory
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The diagram illustrates the life cycle of a typical fern.
a) Indicate whether each stage is haploid or diploid by writing
n or 2n in the circles provided.
b) Which is the dominant generation?
c) Does the life-cycle illustrated show:
heterospory? yes / no
alternation of generation? yes / no
syngamy? yes / no
Sporophyll: a modified
leaf that bears sporangia
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ANSWER
b) Which is the dominant generation? Sporophyte
c) Does the life-cycle illustrated show:
heterospory? yes / no
alternation of generation? yes / no
syngamy? yes / no
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MAGNOLIOPHYTA : Flowering Plants
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Angiosperms: are found in a wide range
of habitats
have re-established
themselves in fresh water
& the sea
Victoria amazonica-
flower & leaves
Posidonia oceanica
Neptune grass
Alka
Dead
Posidonia
leaves -
banquettes
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Angiosperms and animals have affected one
another‟s evolution
Coevolution is the mutual influence on
the evolution of two different species
interacting with each other and reciprocally
influencing each other‟s adaptations.
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Flowering plants are extremely well
suited to life on land, in their :
1. morphology
e.g. efficient water-carrying xylem vessels
2. reproduction
seeds enclosed in
an ovary
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develop directly into sporophytes which
either:
survive or
die
Embryos of seedless plants :
depending on
environmental conditions –
no resting stage
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• is a well-protected resting stage for the
embryo
• seeds of some species may remain viable
(able to grow) for many years
Seed of a gymnosperm or
angiosperm:-
Judean date palm seed about
2,000 years old, was
germinated in 2005
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drying
predators from eating the food reserves or
embryo during the resting stage
Seed coat protects embryo from:
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Many seeds have structural adaptations
that promote dispersal by wind or animals
Wings:
wind dispersal.
Seeds within berries
are often dispersed in
animal feces.
The barbs of cockleburs
facilitate seed dispersal by
allowing the fruits to
“hitchhike” on animals.
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Angiosperms are divided into
monocots and dicots
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List of characteristics of angiosperms Double fertilisation
Triploid endosperm
Have flowers
Produce seeds enclosed in fruit
Xylem contains vessel elements
Phloem contains companion cells
Gametophyte greatly reduced and is endosporic
Sporophyte is the dominant generation
Heterosporous
Dia
gn
os
tic f
eatu
res
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Alternation
of
generations
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Alternation of Generations: Angiosperms
Diploid
Sporophyte:
Leaves
Stem
Roots
macroscopic parts
of flowers
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Haploid Gametophytes are:
reduced to a few cells
retained within the sporophyte (endosporic)
nutritionally dependent on sporophyte
Contents of
pollen grain
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angiosperms are heterosporous plants
the pollen of seed plants has evolved
mechanisms for dispersal, so liquid water is
not needed for the transfer of male gametes
Pollen grains: Microspores
Embryosac: Megaspore Wings – pollen
carried by wind
Hooks- pollen
carried by insects
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Male gametophyte (Microgametophyte)
Pollen grain = microspore
Contents of pollen grain =
male gametophyte
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Male gametophytes reach
female gametophytes by
producing a pollen tube
Thus, there is no need for water
for fertilisation in angiosperms
[i.e. can thrive in dry habitats]
tube
nucleus
pollen
tube
generative
nucleus
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Female gametophyte (Megagametophyte)
Embryosac =
Megaspore
Contents of embryosac
= female gametophyte
Ovule
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DOUBLE FERTILISATION - two male gametes
participate in fertilisation [unique process]
- One sperm combines with the egg = diploid ZYGOTE
- The other sperm combines with 2 polar nuclei = triploid
ENDOSPERM (nourishes developing sporophyte)
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DOUBLE FERTILISATION
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A closer look at the megagametophyte
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Endospermic tissue formation
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Statement
Life cycles
Moss Flowering
plant
Alternation between haploid & diploid phases.
Meiosis occurs at gamete formation.
Involves production of spores.
Sporophyte generation is dominant.
Female gametes develop within archegonia.
Reproduction results in seed formation.
Gametophyte is an independent plant.
Produces flagellated male gametes.
Double fertilisation occurs.
If the statement is correct for that life cycle, place a tick () in the
appropriate box and if the statement is incorrect place a cross ().
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Statement
Life cycles
Moss Flowering
plant
Alternation between haploid & diploid phases.
Meiosis occurs at gamete formation.
Involves production of spores.
Sporophyte generation is dominant.
Female gametes develop within archegonia.
Reproduction results in seed formation.
Gametophyte is an independent plant.
Produces flagellated male gametes.
Double fertilisation occurs.
If the statement is correct for that life cycle, place a tick () in the
appropriate box and if the statement is incorrect place a cross ().
![Page 117: Plant kingdom [2015]](https://reader031.vdocument.in/reader031/viewer/2022012406/55d39cefbb61ebf2268b4751/html5/thumbnails/117.jpg)
Statement
Life cycles
Moss Flowering
plant
Alternation between haploid & diploid phases.
Meiosis occurs at gamete formation.
Involves production of spores.
Sporophyte generation is dominant.
Female gametes develop within archegonia.
Reproduction results in seed formation.
Gametophyte is an independent plant.
Produces flagellated male gametes.
Double fertilisation occurs.
If the statement is correct for that life cycle, place a tick () in the
appropriate box and if the statement is incorrect place a cross ().
![Page 118: Plant kingdom [2015]](https://reader031.vdocument.in/reader031/viewer/2022012406/55d39cefbb61ebf2268b4751/html5/thumbnails/118.jpg)
Statement
Life cycles
Moss Flowering
plant
Alternation between haploid & diploid phases.
Meiosis occurs at gamete formation.
Involves production of spores.
Sporophyte generation is dominant.
Female gametes develop within archegonia.
Reproduction results in seed formation.
Gametophyte is an independent plant.
Produces flagellated male gametes.
Double fertilisation occurs.
If the statement is correct for that life cycle, place a tick () in the
appropriate box and if the statement is incorrect place a cross ().
![Page 119: Plant kingdom [2015]](https://reader031.vdocument.in/reader031/viewer/2022012406/55d39cefbb61ebf2268b4751/html5/thumbnails/119.jpg)
Statement
Life cycles
Moss Flowering
plant
Alternation between haploid & diploid phases.
Meiosis occurs at gamete formation.
Involves production of spores.
Sporophyte generation is dominant.
Female gametes develop within archegonia.
Reproduction results in seed formation.
Gametophyte is an independent plant.
Produces flagellated male gametes.
Double fertilisation occurs.
If the statement is correct for that life cycle, place a tick () in the
appropriate box and if the statement is incorrect place a cross ().
![Page 120: Plant kingdom [2015]](https://reader031.vdocument.in/reader031/viewer/2022012406/55d39cefbb61ebf2268b4751/html5/thumbnails/120.jpg)
Statement
Life cycles
Moss Flowering
plant
Alternation between haploid & diploid phases.
Meiosis occurs at gamete formation.
Involves production of spores.
Sporophyte generation is dominant.
Female gametes develop within archegonia.
Reproduction results in seed formation.
Gametophyte is an independent plant.
Produces flagellated male gametes.
Double fertilisation occurs.
If the statement is correct for that life cycle, place a tick () in the
appropriate box and if the statement is incorrect place a cross ().
![Page 121: Plant kingdom [2015]](https://reader031.vdocument.in/reader031/viewer/2022012406/55d39cefbb61ebf2268b4751/html5/thumbnails/121.jpg)
Statement
Life cycles
Moss Flowering
plant
Alternation between haploid & diploid phases.
Meiosis occurs at gamete formation.
Involves production of spores.
Sporophyte generation is dominant.
Female gametes develop within archegonia.
Reproduction results in seed formation.
Gametophyte is an independent plant.
Produces flagellated male gametes.
Double fertilisation occurs.
If the statement is correct for that life cycle, place a tick () in the
appropriate box and if the statement is incorrect place a cross ().
![Page 122: Plant kingdom [2015]](https://reader031.vdocument.in/reader031/viewer/2022012406/55d39cefbb61ebf2268b4751/html5/thumbnails/122.jpg)
Statement
Life cycles
Moss Flowering
plant
Alternation between haploid & diploid phases.
Meiosis occurs at gamete formation.
Involves production of spores.
Sporophyte generation is dominant.
Female gametes develop within archegonia.
Reproduction results in seed formation.
Gametophyte is an independent plant.
Produces flagellated male gametes.
Double fertilisation occurs.
If the statement is correct for that life cycle, place a tick () in the
appropriate box and if the statement is incorrect place a cross ().
![Page 123: Plant kingdom [2015]](https://reader031.vdocument.in/reader031/viewer/2022012406/55d39cefbb61ebf2268b4751/html5/thumbnails/123.jpg)
Statement
Life cycles
Moss Flowering
plant
Alternation between haploid & diploid phases.
Meiosis occurs at gamete formation.
Involves production of spores.
Sporophyte generation is dominant.
Female gametes develop within archegonia.
Reproduction results in seed formation.
Gametophyte is an independent plant.
Produces flagellated male gametes.
Double fertilisation occurs.
If the statement is correct for that life cycle, place a tick () in the
appropriate box and if the statement is incorrect place a cross ().
![Page 124: Plant kingdom [2015]](https://reader031.vdocument.in/reader031/viewer/2022012406/55d39cefbb61ebf2268b4751/html5/thumbnails/124.jpg)
Statement
Life cycles
Moss Flowering
plant
Alternation between haploid & diploid phases.
Meiosis occurs at gamete formation.
Involves production of spores.
Sporophyte generation is dominant.
Female gametes develop within archegonia.
Reproduction results in seed formation.
Gametophyte is an independent plant.
Produces flagellated male gametes.
Double fertilisation occurs.
If the statement is correct for that life cycle, place a tick () in the
appropriate box and if the statement is incorrect place a cross ().
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SHORT QUESTIONS: [1995]
1. The figure represents a
generalised life cycle of a
terrestrial plant.
a) By placing the symbols n
and 2n in the circles, indicate
which stages in the cycle are
haploid and which are diploid.
b) Indicate clearly by the use of arrowheads, the
direction of the cycle in the figure shown.
c) What types of nuclear division occur at X and at
Y? (5)
n
2n
n
n
2n
mitosis
meiosis
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THE END