Transcript seed plants

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SEED PLANTS
Gymnosperms &
Angiosperms
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Differences between seed-plants
and lower plants
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The gametes of seed plants do not depend on
water for fertilisation
Spores of seed plants are heterosporous
 Microspores
are male spores
 Megaspores are female
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Common features of seed plants
and pteridophytes
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Both have roots, stems and leaves
Both have vascular tissue
Evolution Of Land Plants
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REMEMBER:
 Terrestrial plants evolved from a green
algal ancestor
 The earliest land plants were
nonvascular, spore producers
(bryophytes)
 Ferns were the 1st vascular, spore
producing plants
 Gymnosperms & angiosperms were the
1st vascular, seed plants
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Characteristics of Seed Plants
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Multicellular
Autotrophic
Alternation of
Generations
Reproduce by Seeds
Vascular tissue for
transport
Heterosporous –
make female
megaspores & male
microspores
Dandelion dispersing seeds
Reasons for Success on Land
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Waxy cuticle
Stomata with guard cells to open & close
Gametes protected in tissue called
Gametangia
Pollen tube to transfer sperm to the egg
instead of water
Seeds protect developing embryo &
contain food
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Major evolutionary advancements
of seed plants
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Pollen grains
Resistant seeds
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Major evolutionary advancements
of seed plants
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Pollen grains
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Produced from microspores
Contain the male gametes (sperm cells)
Transported by wind, water and animals
to the female part of a flower
Pollen grain grows a pollen tube
Male gametes move through the pollen
tube to the female egg
Water is not needed for sperm to swim in
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Major evolutionary advancements
of seed plants
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Resistant seeds
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SEEDS
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Allows a plant embryo to lie dormant
Until conditions become suitable for
germination
Dormant = no metabolic reactions can take
as no water is present in the seed
Seeds
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Seeds contain a young,
developing plant embryo
Seeds are covered with a
protective seed coat (testa)
Inside is stored food or
endosperm that the young
plant uses as it begins to
sprout or germinate
Seeds form from ripened
ovules after fertilization
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Parts of a Seed Embryo
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Primary root or Radicle
One or two embryonic leaves
called Cotyledons
Plumule becomes the shoot
Stem like portion below
cotyledons called Hypocotyl
Stem like portion above
cotyledons called Epicotyl
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Endosperm (3n)
Seed Coat
Cotyledon
Plumule
Epicotyl
Hypocotyl
Radicle
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Seed Dispersal
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Seeds must be scattered
(dispersed) away from the
parent plant
Testa (seed coats) may
last thousands of years
Seeds eaten by animals
aren’t digested but pass
out with wastes
Seed Dispersal
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Seeds may have adaptations such as
stickers, hooks, or fuzz to adhere to
animals
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Seed Dispersal
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Both water and
wind can scatter
seeds
Wind
Dispersal
Water Dispersal
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Seed Dispersal Methods
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Seed Germination
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Early growth of plant
embryo
Begins when seed
absorbs water &
breaks seed coat
(testa)
Embryo uses stored
food of cotyledons to
begin growing
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Importance of seed development
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Enabled seed plants to colonise the whole
earth
Seeds could survive unfavourable conditions
Spores of ferns and mosses were not able to
do so
GYMNOSPERMS
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Introduction – Gymnosperm means “naked seed”
(From the Greek: gymnos = naked; sperm = seed)
More advanced than ferns – do not have spores,
they have seeds.
The seeds of the gymnosperms lack a protective
enclosure (unlike flowering plants which have
flowers and fruit).
Examples of gymnosperms:
Conifers (pine trees), cycads,
ginkgo biloba
Gymnosperms
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Mainly woody plants that include
Oldest living trees: bristlecone pine,
5 000 yrs old!
Most massive trees
(giant sequoia):
up to 375 ft. tall,
41 ft wide!
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Tallest living trees (redwoods)
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Conifers
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Conifers adapted to temperate to cold regions
Narrow leaves (needles) help to conserve water
Covered by resins – for protection from
predators, fire, etc.
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Other gymnosperms
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Cycads – short shrubs,
native to tropical regions
(look like palms)
Ginkgo biloba –
a “living fossil”,
male and female tree,
used as a medicinal plant
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Other gymnosperms
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Welwitschia – a bizarre gymnosperm plant that
grows in Namib desert (So. Africa).
Live up to 2000 years in these extreme
conditions!
Only makes two leaves throughout its life. It
takes water from sea mist
Characteristics of gymnosperms
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Mostly trees with needle-like leaves
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Characteristics of gymnosperms
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Have true leaves and roots with vascular
tissue
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Characteristics of gymnosperms
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Have sporangia in cones
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Characteristics of gymnosperms
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Are heterosporous
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Characteristics of gymnosperms
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Pollen grains produce a pollen tube
Characteristics of gymnosperms
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Gymnosperms
produce seeds
which are naked
on the
sporophylls of
the female cone
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Characteristics of gymnosperms
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Embryo is protected inside a seed
Gymnosperm life cycle
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Exhibits alternation of generations
Sporophyte generation (2n) is dominant
Gametophyte generation (1n) is contained in and
dependent on the sporophyte generation
LIFE CYCLE
GYMNOSPERM
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SIGNIFICANCE OF GYMNOSPERMS
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Ecological importance:
Extra stuff
Provide food and habitat for wildlife
Forests prevent soil erosion
Reduce greenhouse-effect gasses
Economic and commercial importance:
Lumber for wood, paper, etc.
Resins – wood, furniture, etc.
Ornamental plants (trees, landscaping)
Food – pine nuts (pesto, etc.)
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ANGIOSPERMS
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Angiosperm means “covered seed”
Have flowers
Have fruits with seeds
Live everywhere – dominant plants in the world
235,000 species (80% of Plant Kingdom)
Angiosperms are the most successful and
advanced plants on earth
EVOLUTION OF ANGIOSPERMS
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Advancements over gymnosperms:
Angiosperms have flowers – many use pollinators
Fruits and seeds – adapted for dispersal
Double fertilization of the endosperm in the seed
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CHARACTERISTICS OF
ANGIOSPERMS
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Also have true leaves and roots
Have vascular tissue (xylem has
tracheids and vessel elementsgymnosperms only have tracheids)
Flowers
Fruit, with seeds enclosed in an
ovary
FLOWERS AND FRUIT
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Both flowers and fruit are used in a variety of
ways to help with reproduction
ANGIOSPERM LIFE CYCLE
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DECREASING DEPENENCE ON WATER
FOR REPRODUCTION
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Land plants evolved from aquatic species
In water, gametes swim to reach each other
Mosses and ferns retain their motile gametes
As a result they have to live in moist areas
Ferns developed a waterproof cuticle and
vascular tissue to make them less dependent
on water but they still need it for reproduction
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DECREASING DEPENENCE ON WATER
FOR REPRODUCTION
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Seed bearing plants (gymnosperms and
angiosperms) lost their dependence on water
for fertilisation
And as a result could reproduce in dry
climates
These plants developed:
 The
pollen grain
 Protected female gamete
 Embryo which does not need to germinate
immediately (protected inside the seed)
THE POLLEN GRAIN
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Contains the non-motile male gamete
Protected against drying out by the outer wall
Carried to the female over long distances by
wind or animals
PROTECTED FEMALE GAMETE
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The female gamete (egg
cell) is deep inside the
ovule
Gives it protection
against drying out
The pollen grain
develops a pollen tube
through which the male
gamete can reach the
female gamete
SEED
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Protects the
embryo against
drying out
Does not have
to germinate
immediately
Only when water
is available (not
dependent on
water)
Contains food
for the embryo
PHYLOGENICS
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Is a branch of learning that tries to show the
evolutionary relationships among organisms
PHYLOGENIC TREE
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Also called a
cladogram
Represents the
evolutionary
relationships
among a set of
organisms that
arose from a
common
ancestor
Do not contain
information
about time
NOTE THE FOLLOWING WHEN LOOKING
AT A PHYLOGENIC TREE
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Ancestral organism
Nodes on the tree
Distance between groups
Relationship between groups
Historical structural changes
Clades
THE ANCESTRAL ORGANISM
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Is on the trunk of the tree
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THE NODES
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Where branches
meet
Show where
species have
diverged
They represent
the common
shared ancestor
of all taxa beyond
the node
TAXON = GROUP OF RELATED ORGANISMS
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THE DISTANCE BETWEEN
GROUPS
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Indicates the degree of relationship
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MAJOR STRUCTURAL CHANGES IN
HISTORY
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E.g. the development of vascular tissue/seeds
in plants
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Evolutionary tree of dog breeds and gray
wolves
CLADE
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Is a group in a phylogenic tree which begins
with a node (ancestor) and includes all the
descendents of the ancestor
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Phylogenetic tree of
Theropods
Theropoda
dinosaurs, and
a clade
consisting of
modern birds).
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Phylogenetic tree of vertebrates
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Flower structure
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Male sex organs: Stamens, composed of anther
– organ that produces pollen (male gametophyte)
Female sex organs: The carpel
Ovary is the enlarged basal portion of carpel that
contains the ovules (female gametophyte)
The stigma is the
receptive portion of
the carpel for pollen
grains to adhere
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Flower structure
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Non-reproductive parts:
Sepals (green) are the
outermost whorl of leaf-like
bracts
Petals (usually colored) are
the inner whorl of leaf-like
bracts
Both can have various
shapes and colors
Tepals -_______________
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Angiosperm life cycle
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Heterosporous: forms two different types of
spores (micro- and megaspores; male and
female spores)
Male – pollen grains contain tube nucleus and
generative cell (2 sperm nuclei)
Female – female gametophyte contains egg
and 2 polar nuclei
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Angiosperm
lifecycle
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Flowering plants exhibit
alternation of
generations. The large,
familiar flowering plant
is the diploid
sporophyte, while the
haploid gametophyte
stages are microscopic.
The unique feature
about the life cycle of
flowering plants is a
double fertilization that
produces a diploid
zygote and a triploid
endosperm or nutritive
tissue.
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Double fertilization
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Pollen grain germinates on stigma forming a
pollen tube, which grows down style to the ovary
Pollen has 2 haploid sperm nuclei, which travel to
the ovary
One sperm nucleus fertilizes the haploid egg
forming the 2n zygote
Another sperm nucleus unites with the 2 polar
nuclei, forming the triploid (3n) endosperm
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Seeds
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Fertilized egg grows into a ___________, which
grows into plant embryo
Endosperm is stored food tissue – for the
embryo to grow
Mature ovule becomes the seed coat and/or fruit
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