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Plant Diversity I
 Plant Diversity I
I. Adaptations of Plants to Land
II. Diversity of Plants
III. Non-Vascular Plants
IV. Vascular Plants
 Learning Objectives
1. Describe the adaptations of plants to land
2. Describe the derived traits of plants
3. Explain the role of vascular tissues,
leaves, roots and seeds in the
classification of plant diversity
4. Identify the derived traits of non-vascular
plants
5. Explain the gametophyte and sporophyte
roles in the life cycle of bryophytes
6. Identify the derived traits of
seedless vascular plants
7. Explain the meaning of sporophyte
and gametophyte dominant
8. Identify the main phyla of
bryophytes and seedless vascular
plants
 I. Adaptations of Plants to
Land
A. Shared Traits with Algae
Many characteristics of land
plants also appear in a
variety of algal clades,
mainly green algae
However, land plants share
four key traits with only
charophytes
– Rings of cellulose-
synthesizing proteins
– Peroxisome enzymes
– Structure of flagellated
sperm
– Formation of a
phragmoplast
 Systematists are
currently debating the
boundaries of the plant
kingdom
Some biologists think the
plant kingdom should be
expanded to include
some or all green algae
Until this debate is
resolved, we define
plants as embryophytes,
plants with embryos
B. Derived Traits of Plants
1. Alternation of Generations
Plants alternate between two
multicellular stages, a
reproductive cycle called
alternation of
generations
The gametophyte is
haploid and produces
haploid gametes by mitosis
Fusion of the gametes gives
rise to the diploid
sporophyte, which
produces haploid spores by
meiosis
 The diploid embryo is retained within the tissue
of the female gametophyte
Nutrients are transferred from parent to
embryo through placental transfer cells
Land plants are called embryophytes because
of the dependency of the embryo on the parent
2. Sporangia Produces
Walled Spores
The sporophyte produces
spores in organs called
sporangia
Diploid cells called
sporocytes undergo
meiosis to generate
haploid spores
Spore walls contain
sporopollenin, which
makes them resistant to
harsh environments
3. Multicellular Gametangia
Gametes are produced within organs called
gametangia
Female gametangia, called archegonia,
produce eggs and are the site of fertilization
Male gametangia, called antheridia,
produce and release sperm
4. Apical Meristems
Plants sustain continual growth in their
apical meristems
Cells from the apical meristems differentiate
into various tissues
5. A waxy cuticle to prevent water loss.
 II. Diversity of Plants
A. Hypotheses on the Origin of Plants
Fossil evidence indicates that plants were on
land at least 475 million years ago
Fossilized spores and tissues have been
extracted from 475-million-year-old rocks
B. Vascular Tissues.
Land plants can be informally
grouped based on the
presence or absence of
vascular tissue
Most plants have vascular
tissue; these constitute the
vascular plants
Nonvascular plants are
commonly called bryophytes
Bryophytes are not a
monophyletic group; their
relationships to each other
and to vascular plants is
unresolved
 Seedless vascular
plants can be divided
into clades
– Lycophytes (club
mosses and their
relatives)
– Monilophytes (ferns
and their relatives)
Seedless vascular
plants are paraphyletic,
and are of the same
level of biological
organization, or grade
C. Seeds
A seed is an embryo
and nutrients
surrounded by a
protective coat
Seed plants form a clade
and can be divided into
further clades
– Gymnosperms, the
“naked seed” plants,
including the conifers
– Angiosperms, the
flowering plants
 III. Non-Vascular Plants
A. Bryophytes are represented today by three phyla
of small herbaceous (nonwoody) plants
– Liverworts, phylum Hepatophyta
– Hornworts, phylum Anthocerophyta
– Mosses, phylum Bryophyta
Bryophyte refers to all nonvascular plants, whereas
Bryophyta refers only to the phylum of mosses
B. Bryophyte
Gametophytes
In all three
bryophyte phyla,
gametophytes are
larger and longer-
living than
sporophytes
Sporophytes are
typically present
only part of the time
 A spore germinates into a
gametophyte composed of a
protonema and gamete-
producing gametophore
The height of gametophytes is
constrained by lack of vascular
tissues
Rhizoids anchor
gametophytes to substrate
Mature gametophytes produce
flagellated sperm in antheridia
and an egg in each
archegonium
Sperm swim through a film of
water to reach and fertilize the
egg
C. Bryophyte Sporophytes
Bryophyte sporophytes
grow out of archegonia, and
are the smallest and
simplest sporophytes of all
extant plant groups
A sporophyte consists of a
foot, a seta (stalk), and a
sporangium, also called a
capsule, which discharges
spores through a
peristome
Hornwort and moss
sporophytes have stomata
for gas exchange; liverworts
do not
D. Ecologic and Economic
Importance of Mosses
 Some mosses might help
retain nitrogen in the soil
 Sphagnum, or “peat
moss,” forms extensive
deposits of partially
decayed organic material
known as peat
 Peat can be used as a
source of fuel
 Sphagnum is an important
global reservoir of organic
carbon
 IV. Seedless Vascular Plants
Living vascular plants are characterized by
Life cycles with dominant sporophytes
Vascular tissues called xylem and phloem
Well-developed roots and leaves and are usually restricted
to moist environments
Vascular tissue allowed these plants to grow tall
Seedless vascular plants have flagellated sperm
A. Life Cycles With Dominant Sporophytes
In contrast with bryophytes, sporophytes of
seedless vascular plants are the larger
generation, as in familiar ferns
The gametophytes are tiny plants that grow
on or below the soil surface
B. Vascular Tissues
Vascular plants have two
types of vascular tissue:
xylem and phloem
Xylem conducts most of
the water and minerals and
includes dead cells called
tracheids
Water-conducting cells are
strengthened by lignin and
provide structural support
Phloem consists of living
cells and distributes sugars,
amino acids, and other
organic products
C. Roots
Roots are organs that
anchor vascular plants
They enable vascular
plants to absorb water
and nutrients from the
soil
Roots may have
evolved from
subterranean stems
D. Leaves
Leaves are organs that increase the surface
area of vascular plants, thereby capturing more
solar energy that is used for photosynthesis
Leaves are categorized by two types
Microphylls, leaves with a single vein
Megaphylls, leaves with a highly branched vascular
system
E. Sporophylls
Sporophylls are modified
leaves with sporangia
Sori are clusters of
sporangia on the undersides
of sporophylls
Strobili are cone-like
structures formed from
groups of sporophylls
Most seedless vascular
plants are homosporous,
producing one type of spore
that develops into a bisexual
gametophyte
F. Classification
1. Phylum Lycophyta
includes club
mosses, spike
mosses, and
quillworts
Club mosses and
spike mosses have
vascular tissues and
are not true mosses
2. Phylum Pterophyta
includes ferns, horsetails,
and whisk ferns and their
relatives
They are most diverse in the
tropics but also thrive in
temperate forests
Horsetails were diverse
during the Carboniferous
period, but are now restricted
to the genus Equisetum
Whisk ferns resemble
ancestral vascular plants but
are closely related to modern
ferns