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Transcript
Introduction
to the Plant
Kingdom
1
Early Ancestors
Aquatic to Terrestrial
Life
2
Aquatic Ancestor



Closest living
species to a
possible land
plant ancestor
Group of green
algae
Called
Charyophyceans
Chara
3
Algae & Land Plant
Similarities





Both contain chlorophyll
Have chloroplasts
Store starch in plastids
Cellulose in cell walls
Go through Alternation of Generations
life Cycle
4
Aquatic Habitat
Terrestrial Habitat
5
Living in Aquatic Environments





Plants surrounded by water so
don’t dry out
Sperm swims to egg
Water supports plant
Plants stay in upper surface near
light
Absorb nutrients from the H2O
6
Plant Adaptations to Land





Problems:
Need minerals
Gravity
Increase in
Height for Light
Adaptations for
Drier
environment
Reproduction
Solutions:





Roots absorb H2O &
minerals
Lignin & cellulose in cell
walls
Vascular Transport
System
Waxy cuticle &
stomata with guard
cells
Pollen containing sperm7
How Are Plants
All Alike?
8
Plant Characteristics





Multicellular
Autotrophic (photosynthesis)
Chlorophylls a and b in thylakoid
membranes
Surrounded by cell walls containing
cellulose (polysaccharide)
Store reserve food as amylose
(starch)
9
Plant Reproduction




Alternation of generations life
cycle
Diploid (2n) sporophyte stage
Haploid (1n) gametophyte stage
Produce multicellular embryo
protected inside multicellular
haploid (gametophyte egg sac)
tissue
10
Plant Reproduction




Diploid (2n) sporophyte stage
produces haploid spores by
meiosis
Haploid spores undergo mitosis to
produce gametophyte stage
Gametophyte makes gametes
(eggs and sperm) by meiosis
Zygote (2n) produces the new
sporophyte
11
Alternation of Generations
Gametophyte
2n Sporophyte
2n gametophyte
1n pollen
2n seed with
plant embryo
Sporophyte
Ovary with
1n ovules
(eggs)
copyright cmassengale
12
Plant
Divisions
13
Taxonomy



Plants are divided
into two groups
Based on the
presence or
absence of an
internal transport
system for water
and dissolved
materials
Called Vascular
System
Vascular
Bundles
14
Vascular System



Xylem tissue carries water and
minerals upward from the roots
Phloem tissue carries sugars made
by photosynthesis from the leaves
to where they will be stored or
used
Sap is the fluid carried inside the
xylem or phloem
15
Nonvascular Plants



Do not have
vascular tissue
for support or
conduction of
materials
Called
Bryophytes
Require a
constantly moist
environment
Sporophyte stage
Gametophyte
Stage
Moss Gametophytes &
Sporophytes
16
Nonvascular Plants
Plants can’t grow as tall
 Cells must be in direct contact
with moisture
 Materials move by diffusion
cell-to-cell
 Sperm must swim to egg
through water droplets

17
Nonvascular Plants

Includes mosses (Bryophyta),
liverworts (Hepatophyta), and
hornworts (Antherophyta)
Liverworts
Hornworts
18
Main Parts of Vascular
Plants


Shoots
-Found above ground
-Have leaves attached
- Photosynthetic part of
plant
Roots
-Found below ground
-Absorb water & minerals
-Anchor the plant
19
Vascular Plants


Also called
Tracheophytes
Subdivided into
two groups -Seedless
vascular plants
and Seedbearing vascular
plants
Club Moss
20
Seedless Vascular Plants

Includes club moss (Lycophyta),
horsetails (Sphenophyta), whisk
ferns (Psilophyta), and ferns
(Pterophyta)
Whisk ferns
Horsetails
21
Seed-Producing Vascular
Plants



Includes two groups –
Gymnosperms and Angiosperms
Gymnosperms have naked seeds in
cones
Angiosperms have flowers that
produce seeds to attract
pollinators and produce seeds
22
Gymnosperms




Coniferophyta are
known as conifers
Includes pine,
cedar, spruce, and
fir
Cycadophyta –
cycads
Ginkgophyta ginkgo
Cycad
Ginkgo
23
Gymnosperms


Contains the
oldest living
plant – Bristle
cone pine
Contains the
tallest living
plant – Sequoia
or redwood
copyright cmassengale
24
Angiosperms





Flowering plants
Seeds are formed when an
egg or ovule is fertilized by
pollen in the ovary
Ovary is within a flower
Flower contains the male
(stamen) and/or female
(ovaries) parts of the plant
Fruits are frequently
produced from these
ripened ovaries (help
disperse seeds)
copyright cmassengale
25
Angiosperms




Division Anthophyta
Subdivided into two groups –
Monocots and Dicots
Monocots have a single seed
cotyledon
Dicots have two seed cotyledons
copyright cmassengale
26
Monocots



Parallel
venation in
leaves
Flower parts in
multiples of 3
Vascular tissue
scattered in
cross section
of stem
copyright cmassengale
27
Dicots



Net venation in
leaves
Flower parts in
multiples of 4
or 5
Vascular tissue
in rings in
cross section
of stem
copyright cmassengale
28
Plant Uses
copyright cmassengale
29
Why We Can’t do Without
Plants!





Produce oxygen for the
atmosphere
Produce lumber for building
Provide homes and food for many
organisms
Prevent erosion
Used for food
copyright cmassengale
30
More Reasons We Can’t do
Without Plants!





Produce wood pulp for paper
products
Source of many medicines
Ornamental and shade for yards
Fibers such as cotton for fabric
Dyes
copyright cmassengale
31
copyright cmassengale
32