Outline - PowerPoint PPT Presentation

About This Presentation
Title:

Outline

Description:

Outline Evolutionary History Alternation of Generations Nonvascular Plants Vascular Plants Seedless Seed Angiosperms Monocots and Eudicots Flowers Evolutionary ... – PowerPoint PPT presentation

Number of Views:112
Avg rating:3.0/5.0
Slides: 53
Provided by: DavidH350
Category:

less

Transcript and Presenter's Notes

Title: Outline


1
(No Transcript)
2
Outline
  • Evolutionary History
  • Alternation of Generations
  • Nonvascular Plants
  • Vascular Plants
  • Seedless
  • Seed
  • Angiosperms
  • Monocots and Eudicots
  • Flowers

3
Evolutionary History of Plants
  • More than 98 of all biomass is plants
  • Multicellular photosynthetic eukaryotes
  • 280,000 known species
  • Thought to have evolved from freshwater algae
    over 500 mya
  • Evolution of plants marked by four evolutionary
    events associated with four major groups of
    plants
  • Nonvascular Plants
  • Advent of nourishment of a multicellular embryo
    within the body of the female plant

4
Representatives of theFour Major Groups of Plants
5
Evolutionary History of Plants
  • Seedless vascular plants
  • Advent of vascular tissue
  • Gymnosperms and angiosperms
  • Produce seeds
  • Flowering Plants
  • Attract pollinators that give rise to fruits

6
Evolutionary History of Plants
7
Alternation of Generations
  • Life cycle involves alternation of generations
  • Multicellular 1n individuals (gametophytes)
    produce multicellular 2n individuals
    (sporophytes)
  • Multicellular 2n individuals (sporophytes)
    produce multicellular 1n individuals
    (gametophytes)
  • Sporophyte (2n)
  • Multicellular individual that produces spores by
    meiosis
  • Spore is haploid cell that will become the
    gametophyte
  • Gametophyte (1n)
  • Multicellular individual that produces gametes
  • Gametes fuse in fertilization to form zygote
  • Zygote is a diploid cell that will become the
    sporophyte

8
Alternation of Generations
9
Alternation of Generations
  • Appearance of generations varies widely
  • In ferns, female portions are archegonia and are
    fertilized by flagellated sperm
  • In angiosperm, female gametophyte (embryo sac),
    consists of an ovule
  • Following fertilization, ovule becomes seed
  • In seed plants, pollen grains are mature
    sperm-bearing male gametophytes

10
Reduction in the Size of the Gametophyte
11
Other Terrestrial Adaptations
  • Vascular tissue transports water and nutrients to
    the body of the plant
  • Cuticle provides an effective barrier to water
    loss
  • Stomata bordered by guard cells that regulate
    opening, and thus water loss

12
Protection of Eggs and Embryos
13
Leaves of Vascular Plants
14
Nonvascular Plants
  • Nonvascular plants (bryophytes)
  • Lack specialized means of transporting water and
    organic nutrients
  • Do not have true roots, stems, and leaves
  • Gametophyte is dominant generation
  • Produces eggs in archegonia
  • Produces flagellated sperm in antheridia
  • Sperm swim to egg in film of water to make zygote

15
Nonvascular Plants
  • Hornworts (phlym Anthocerophyta) have small
    sporophytes that carry on photosynthesis
  • Liverworts (phylum Hepatophyta) have either
    flattened thallus or leafy appearance
  • Mosses (phylum Bryophyta) usually have a leafy
    shoot, although some are secondarily flattened
  • Can reproduce asexually by fragmentation
  • Dependent sporophyte consists of foot, stalk, and
    sporangium

16
Hornwort
17
Liverwort, Marchantia
18
Moss (Polytrichum) Life Cycle
19
Vascular Plants
  • Xylem conducts water and dissolved minerals up
    from roots
  • Phloem conducts sucrose and other organic
    compounds throughout the plant
  • Lignin strengthens walls of conducting cells in
    xylem
  • Most seedless vascular plants are homosporous
  • Windblown spores are dispersal agents
  • All seed plants are heterosporous and have male
    and female gametophytes
  • Seeds disperse offspring

20
Cooksonian Fossil
21
Vascular Tissue
22
Seedless Vascular Plants
  • Club Mosses (phylum Lycophyta)
  • Typically, branching rhizome sends up short
    aerial stems
  • Leaves are microphylls (have only one strand of
    vascular tissue)
  • Sporangia occur on surfaces of sporophylls
  • Grouped into club-shaped strobili

23
Club Moss, Lycopodium
24
Seedless Vascular Plants
  • Ferns and Allies
  • Horsetails (phylum Sphenophyta)
  • Rhizome produces tall aerial stems
  • Contains whorls of slender, green branches
  • Small, scalelike leaves also form whorls at the
    joints

25
Horsetail, Equisetum
26
Ferns
  • Whisk Ferns (phylum Psilotophyta)
  • Branched rhizome has rhizoids
  • Mutualistic mycorrhizal fungus helps gather
    nutrients
  • Ferns (phylum Pterophyta)
  • Large conspicuous fronds
  • Divided into leaflets
  • Dominant sporophyte produces windblown spores

27
Whisk fern, Psilotum
28
Diversity of ferns
29
Fern Life Cycle
30
Seed Plants
  • Seed plants are the most plentiful plants in the
    biosphere
  • Seed coat and stored food allow an embryo to
    survive harsh conditions during long period of
    dormancy
  • Heterosporous
  • Drought-resistant pollen grains
  • Ovule develops into seed

31
Seed Plants
32
Gymnosperms
  • Gymnosperms have ovules and seeds exposed on the
    surface of sporophylls
  • Confiers
  • Cycads
  • Ginkgoes
  • Gnetophytes

33
Conifers
  • Conifers, as well as other gymnosperm phyla, bear
    cones
  • Tough, needlelike leaves of pines conserve water
    with a thick cuticle and recessed stomata
  • Considered a soft wood because it consists
    primarily of xylem tissue

34
Pine Life Cycle
35
Cycads
  • Cycads (phylum Cycadophyta)
  • Large, finely divided leaves that grow in
    clusters at the top of the stem
  • Pollen and seed cones on separate plants
  • Pollinated by insects

36
Cycad Cones
Figure 24.19
37
Ginkgoes
  • Ginkgoes (phylum Ginkgophyta)
  • Dioecious
  • Some trees producing seeds
  • Others producing pollen
  • One surviving species (Gingko biloba)

38
The Ginkgo Tree
39
Ephedra
Figure 24.21
40
Welwitschia miribilis
41
Gnetophytes
  • Gnetophytes (phylum Gnetophyta)
  • Have similarly structured xylem
  • None have archegonia
  • Strobili have similar construction

42
Angiosperms
  • Angiosperms (phylum Anthophyta)
  • An exceptionally large and successful group of
    plants
  • Ovules are always enclosed within diploid tissues
  • Became dominant group of plants in the late
    Cretaceous and early Paleocene periods

43
Amborella trichopoda
44
Monocots and Eudicots
  • Two classes of flowering plants
  • Monocotyledones (Monocots)
  • One cotyledon in seed
  • Eudicotyledones (Dicots)
  • Two cotyledons in seed

45
Flower Diversity
46
The Flower
  • Peduncle (flower stalk) expands at tip into a
    receptacle
  • Bears sepals, petals, stamens, and carpels, all
    attached to receptacle in whorls
  • Calyx (collection of sepals) protect flower bud
    before it opens
  • Corolla (collection of petals)

47
The Flower
  • Each stamen consists of an anther and a filament
    (stalk)
  • Carpel has three major regions
  • Ovary - Swollen base
  • Fruit
  • Style - Elevates stigma
  • Stigma - Sticky receptor of pollen grains

48
Generalized Flower
49
Flowering plant life cycle
50
Flowers and Diversification
  • Wind-pollinated flowers are usually not showy
  • Bird-pollinated flowers are often colorful
  • Night-blooming flowers attract nocturnal mammals
    or insects
  • Usually white or cream-colored
  • Fruits of flowers protect and aid in dispersal
  • Utilize wind, gravity, water, and animals for
    dispersal

51
Review
  • Evolutionary History
  • Alternation of Generations
  • Nonvascular Plants
  • Vascular Plants
  • Seedless
  • Seed
  • Angiosperms
  • Monocots and Eudicots
  • Flowers

52
(No Transcript)
Write a Comment
User Comments (0)
About PowerShow.com