Plant Diversity II.pptx

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Plant Diversity II: Seed
Vascular Plants
 Plant Diversity II: Seed Vascular
Plants
I. General Characteristics
II. Gymnosperms
III. Angiosperms
IV. Ecological Value of Angiosperms
 Learning Objectives
1. Describe the following general
characteristics of seed-vascular plants:
seeds and seed development, reduced
gametophytes, heterospores, pollen, ovules
2. Explain the characteristics of gymnosperms
3. Identify the gymnosperm phyla and
examples of plants in each phylum
4. Organize the sequence of developmental
stages in the life cycle of a pine tree
Learning Objectives (contd.)
5. Describe the structure and function
of a flower
6. Describe the structure and function
of a fruit
7. Identify the characteristics of the
Phylum Anthophyta and its sub-
divisions
8. Organize the sequence of
developmental stages in the life cycle
of an angiosperm
 I. General Characteristics
A. Seeds
1. Seed plants originated
about 360 million years
ago
2. A seed consists of an
embryo and nutrients
surrounded by a
protective coat
3. Domestication of seed
plants had begun by
8,000 years ago and
allowed for permanent
settlements
B. Reduced Gametophyte
The gametophytes of seed plants
develop within the walls of spores
that are retained within tissues of the
parent sporophyte.
C. Heterospory
Seed plants produce two types of spores:
Megasporangia produce megaspores that
give rise to female gametophytes
Microsporangia produce microspores that
give rise to male gametophytes
D. Ovule and egg
production
An ovule consists of a
megasporangium,
megaspore, and one or
more protective
integuments
Gymnosperm megaspores
have one integument
Angiosperm megaspores
usually have two
integuments
E. Pollen and sperm production
Microspores develop into
pollen grains, which contain
the male gametophytes
Pollination is the transfer of
pollen to the part of a seed
plant containing the ovules
Pollen eliminates the need for
a film of water and can be
dispersed great distances by
air or animals
If a pollen grain germinates, it
gives rise to a pollen tube
that discharges sperm into
the female gametophyte
within the ovule
F. Seed Development
A seed develops from the whole ovule
A seed is a sporophyte embryo, along with its food
supply, packaged in a protective coat
– They may remain dormant for days to years, until conditions
are favorable for germination
– They may be transported long distances by wind or animals
 II. Gymnospems
Gymnosperms means “naked seeds”
The seeds are exposed on
sporophylls that form cones
Angiosperm seeds are found in fruits,
which are mature ovaries
A. Phylum
Cycadophyta
Individuals have
large cones and
palmlike leaves
These thrived
during the
Mesozoic, but
relatively few
species exist today
B. Phylum
Ginkgophyta
This phylum
consists of a single
living species,
Ginkgo biloba
It has a high
tolerance to air
pollution and is a
popular
ornamental tree
C. Phylum
Gnetophyta
This phylum
comprises three
genera
Species vary in
appearance, and
some are tropical
whereas others live
in deserts
D. Phylum
Coniferophyta
This phylum is by
far the largest of
the gymnosperm
phyla
Most conifers are
evergreens and
can carry out
photosynthesis
year round
E. Conifer Life Cycle
Three key features of the
gymnosperm life cycle are
– Dominance of the sporophyte
generation
– Development of seeds from
fertilized ovules
– The transfer of sperm to ovules
by pollen
The pine tree is the sporophyte
and produces sporangia in male
and female cones
Small cones produce microspores
called pollen grains, each of which
contains a male gametophyte
The familiar larger cones contain
ovules, which produce
megaspores that develop into
female gametophytes
 III. Angiosperms
Angiosperms are seed plants
with reproductive structures
called flowers and fruits
They are the most
widespread and diverse of
all plants
All angiosperms are
classified in a single phylum,
Anthophyta, from the Greek
anthos for flower
Angiosperms have two key
adaptations
– Flowers
– Fruits
A. Flowers
The flower is an angiosperm
structure specialized for sexual
reproduction
Many species are pollinated by
insects or animals, while some
species are wind-pollinated
A flower is a specialized shoot
with up to four types of modified
leaves
– Sepals, which enclose the
flower
– Petals, which are brightly
colored and attract pollinators
– Stamens, which produce
pollen
– Carpels, which produce ovules
B. Fruits
1. A fruit typically
consists of a mature
ovary but can also
include other flower
parts
2. Fruits protect seeds
and aid in their
dispersal
3. Mature fruits can be
either fleshy or dry
4. Various fruit
adaptations help
disperse seeds
5. Seeds can be
carried by wind,
water, or animals
to new locations
C. Angiosperm Life Cycle
1. The flower of the sporophyte
is composed of both male and
female structures
2. Male gametophytes are
contained within pollen grains
produced by the
microsporangia of anthers
3. The female gametophyte, or
embryo sac, develops within
an ovule contained within an
ovary at the base of a stigma
4. Most flowers have
mechanisms to ensure cross-
pollination between flowers
from different plants of the
same species
5. A pollen grain that has
landed on a stigma
germinates and the pollen
tube of the male
gametophyte grows down
to the ovary
6. The ovule is entered by a
pore called the micropyle
7. Double fertilization
occurs when the pollen
tube discharges two
sperm into the female
gametophyte within an
ovule
8. One sperm fertilizes the
egg, while the other
combines with two nuclei
in the central cell of the
female gametophyte and
initiates development of
food-storing endosperm
9. The triploid endosperm
nourishes the developing
embryo
10. Within a seed, the
embryo consists of a root
and two seed leaves
called cotyledons
D. Angiosperm Diversity
1. Angiosperms
comprise more than
250,000 living species
2. Previously,
angiosperms were
divided into two main
groups
1. Monocots (one
cotyledon)
2. Dicots (two dicots)
3. DNA studies suggest
that monocots form a
clade, but dicots are
polyphyletic
Basal
Angiosperms
Three small
lineages constitute
the basal
angiosperms
These include
Amborella
trichopoda, water
lilies, and star
anise
Magnoliids
Magnoliids include
magnolias, laurels,
and black pepper
plants
Magnoliids are more
closely related to
monocots and
eudicots than basal
angiosperms
Monocots
More than one-
quarter of
angiosperm
species are
monocots
Eudicots
More than two-
thirds of
angiosperm
species are
eudicots
 IV. Ecological Value of
Angiosperms
A. Plants and Animals
Animals influence the
evolution of plants and
vice versa
– For example, animal
herbivory selects for
plant defenses
– For example,
interactions between
pollinators and
flowering plants select
for mutually beneficial
adaptations
B. Plants and People
No group of plants is
more important to
human survival than
seed plants
Plants are key sources
of food, fuel, wood
products, and medicine
Our reliance on seed
plants makes
preservation of plant
diversity critical
C. Ecological Threats to Plants
Destruction of habitat is causing
extinction of many plant species
In the tropics 55,000 km2 are
cleared each year
At this rate, the remaining
tropical forests will be
eliminated in 200 years
Loss of plant habitat is often
accompanied by loss of the
animal species that plants
support
At the current rate of habitat
loss, 50% of Earth’s species will
become extinct within the next
100–200 years