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Title: Plant Structure and Growth


1
Chapter 35 Plant Structure and Growth
2
Chapter focus
  • Plant structure and growth
  • Warning many terms or vocabulary words
  • Warning many diagrams
  • Focus structure, function, located next to .

3
Question ?
  • What heading can be given to the following groups
    of words?

4
  • ---------
  • Lettuce
  • Peas
  • Beans
  • ----------
  • Rhubarb
  • Apples
  • Oranges

5
Question ?
  • What is a vegetable?
  • What is a fruit?

6
  • Vegetables
  • Lettuce
  • Rhubarb
  • Fruits
  • Peas
  • Beans
  • Apples
  • Oranges

7
Point
  • Plants have organs too, just like animals.
  • Asexual organs (vegetables)
  • Sexual organs (fruits)

8
Asexual Organs
  • 1. Stem
  • 2. Leaf
  • 3. Root

9
Stem
  • The main body of the portion above ground of a
    tree, shrub or herb.
  • The ascending plant axis.

10
Stem Functions
  • Support of other plant organs.
  • Ps.
  • Storage (water and food).

11
Leaf
  • Lateral outgrowths of the stem axis.
  • Primary photosynthetic organs.
  • Function
  • Photosynthesis
  • Storage

12
Root
  • The descending axis of a plant, normally below
    ground.
  • Functions
  • Anchorage.
  • Absorption of water and minerals.
  • Storage.

13
Sexual Organs
  • 1. Flowers
  • 2. Fruits
  • 3. Seeds

14
Flowers
  • Modified leaves grouped together on a stem.
  • Sexual reproductive organs.
  • Function
  • Sexual Reproduction

15
Fruit
  • A mature ovary, sometimes including other floral
    parts.
  • Function
  • Seed dispersal
  • Seed protection

16
Seed
  • Mature ovule containing the embryo and nutrient
    tissues.
  • Function
  • Dispersal unit in sexual reproduction.

17
Plant Cell Types
  • Differentiated by the type and thickness of the
    cell wall.
  • 1. Parenchyma (soft tissue)
  • 2. Collenchyma (glue tissue)
  • 3. Sclerenchyma (hard tissue)

18
Parenchyma Cells
  • Primary wall only.
  • Thin cell wall.
  • Alive when mature,
  • typical" plant cell.

19
Functions
  • Ps
  • Storage
  • "Filler" cells
  • Cell division (mitosis)

20
Collenchyma
  • Primary wall only.
  • Wall is thickened, especially in the corners.
  • Alive when mature.

21
Function
  • Support of non-woody plant parts.
  • Ex veins, stems.

22
Sclerenchyma
  • Secondary wall present.
  • Wall strengthened with lignin.
  • Dead when mature.

23
Sclerenchyma Types
  • 1. Fibers
  • 2. Sclereids
  • 3. Tracheids
  • 4. Vessel Elements

24
Fibers
  • Elongated thin cells used for support.
  • Ex Hemp fibers

25
Sclereids
  • Used for hard dense areas and support.
  • Ex Nut shells, seed coats

26
Tracheids
  • Spindle - shaped cells with pits in the cell
    walls.
  • Used for water transportation.

Vessel
Fiber
27
Vessel Elements
  • Wide stocky cells with pits in the side walls
    lack end walls.
  • Used for water transportation.

28
Plant Tissues
  • Can be named by several methods
  • Ex Cell Location Cell Origin
    Cell Function

29
Point
  • The same cell can have several tissue names
    depending on the criteria for naming.

30
Main Tissue Systems
  • 1. Dermal
  • 2. Vascular
  • 3. Ground

31
Dermal Tissue
  • Epidermis or "skin" of the plant.
  • Often has a cuticle, a waxy coating to prevent
    water loss.
  • Functions
  • Prevent water loss.
  • Water absorption (root hairs).

32
Vascular Tissue
  • Made of Xylem and Phloem.
  • Functions
  • Transport and support
  • Xylem - Water
  • Phloem - Food

33
Xylem
34
Phloem
35
Phloem
  • Sieve Cell alive when functioning, but lacks a
    nucleus.
  • Companion Cell alive, controls itself and the
    sieve cell.

36
Ground Tissue
  • Tissue between the dermal and the vascular
    tissues.
  • Functions
  • "Filler" tissue
  • Ps
  • storage
  • support

37
Question ?
  • How does plant growth and animal growth differ ?

38
Animals
  • Whole organism increases in size.
  • Determinant Growth grow to a certain size, then
    stop.

39
Plants
  • Growth in specialized areas only.
  • Indeterminant Growth grow as long as they live
    because the specialized areas remain embryonic.

40
Plant Meristems
  • Perpetual embryonic regions.
  • Zones for cell division.

41
Meristem Types
  • 1. Apical growth in length. Primary growth.
  • 2. Lateral/Cambiums growth in diameter. Secondary
    growth.

42
Comment
  • Some tissues like Xylem may be Primary or
    Secondary depending on which meristem produced
    the cell.
  • Ex
  • Primary xylem
  • Secondary xylem

43
Apical Meristem Types
  • 1. RAM Root Apical Meristem primary growth of
    roots.
  • 2. SAM Shoot Apical Meristem primary growth of
    shoots.

44
RAM
  • Located at the tip of each growing root.
  • Protected from the soil by the Root Cap.

RAM
45
Root Cap
  • Protects RAM.
  • Secrets a polysaccharide lubricant for root
    growth.

46
Primary Root Zones
  • 1. Cell Division - cells small and embryonic.
  • 2. Cell Elongation - cells elongate and start to
    mature.
  • 3. Cell Differentiation - cells mature into final
    cell types.

47
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48
Root Hairs
  • Extensions of the epidermis to increase surface
    area for water absorption.
  • Not a true tissue.
  • Comment - root hairs are very delicate and must
    be continually replaced.

49
Root Hairs
50
RAM - Primary Tissues
  • 1. Protoderm
  • 2. Procambium
  • 3. Ground Meristem

51
Protoderm
  • Will mature into the epidermis and root hairs.

52
Procambium Stele
  • Matures into the vascular tissues of the stele
  • Xylem
  • Phloem
  • Pericycle site of branch roots

53
Ground Meristem
  • Matures into the ground tissues
  • Cortex storage tissue
  • Endodermis second skin around the stele that
    controls the movement of materials into the
    stele.

54
Epidermis
Cortex
Stele
55
Endodermis
Pericycle
Xylem
Phloem
56
Branch Roots
  • Originate from the pericycle.
  • Burst their way to the outside.

57
Root Types
  • Taproot - one main root.
  • Ex carrot
  • Fibrous Roots - many small roots of equal size.
  • Ex grass roots

58
Adventitious Roots
  • Roots that develop from other plant parts.
  • Ex roots on stem cuttings climbing roots

59
SAM Produces
  • 1. Protoderm
  • 2. Procambium
  • 3. Ground Meristem
  • Comment these tissues mature into the same
    things as seen in RAM.

60
SAM Differences
  • No "root" cap.
  • Produces leaves as stem out-growths at the
    nodes.
  • Has buds.

61
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62
Buds
  • Apical Meristems protected by modified leaves
    or bud scales.
  • Axillary Buds

63
Branch Stems
  • Develop from axillary meristems or axillary buds.
  • "External" development.

64
Modified Stems
  • 1. Rhizomes
  • 2. Stolons
  • 3. Tubers
  • 4. Tendrils

65
Rhizome
  • An elongated underground horizontal stem.
  • Ex Iris, many grasses

66
Stolon
  • An elongated above-ground horizontal stem.
  • Ex Strawberries Airplane Plant

67
Tuber
  • A much-enlarged, short, fleshy underground stem
    tip.
  • Ex Dahlia, Potato

68
Tendril
  • A slender coiling stem.
  • Ex Clematis and other climbing vines.

69
Leaves
  • Stem outgrowths for Ps.
  • Leaf Morphology
  • 1. Gross
  • 2. Fine

70
Gross Morphology
  • Blade - the flattened portion of a leaf.
  • Petiole - stalk of a leaf.

71
Axillary Buds
Blade
Petiole
72
Blade/Leaf Types
  • Simple - 1 blade.
  • Compound - Several blades.

73
Nodes and Internodes
  • Node - stem area where a leaf and bud are
    attached.
  • Internode - stem area between nodes.

74
Nodes

Internode
75
Fine Morphology
  • The tissues within a leaf.
  • 1. Upper Epidermis
  • 2. Mesophyll
  • 3. Lower Epidermis
  • 4. Veins

76
Upper Epidermis
  • Cuticle present.
  • Usually 1 cell layer thick.
  • Cells w/o chloroplasts .
  • Function protects the mesophyll.

77
Mesophyll
  • 1. Palisade upright cells.
  • 2. Spongy loosely organized cells with air
    spaces.
  • Function major sites for Ps.

Epidermis
Epidermis
78
Lower Epidermis
  • Cuticle present.
  • Usually 1 cell layer.
  • Cells w/o chloroplasts.
  • Stomata present for gas exchange.

79
Stomata (mouth)
  • Regulated by Guard Cells which have chloroplasts.

80
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81
Vein Structure
  • Xylem dorsal
  • Phloem ventral
  • Often surrounded by bundle sheath cells for
    support.

82
Xylem
Phloem
Bundle Sheath Cells
Collenchyma
83
Homework
  • Read Chapter 35, 37
  • No lab broadcast 3/27
  • Chapter 35 Fri. 3/28

84
Leaf Modifications
  • 1. Tendrils for support
  • Ex Peas
  • 2. Bulbs for food storage
  • Ex Onion
  • 3. Insect Catching
    Ex Carnivorous Plants
  • 4. Flowers thought to be modified
    leaves.

85
Other Modifications of Leaves
Tendrils
Spines
Succulent Leaves
Bracts
86
Stem Vascular Tissue
  • Dicots vascular bundles join together to make a
    ring. Often have secondary growth.
  • Monocots vascular bundles are scattered. No
    true secondary growth.

87
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88
Secondary Growth
  • Growth in diameter.
  • Growth from lateral meristems or cambiums.

89
Cambium Types
  • 1. Vascular produces xylem and phloem.
  • 2. Cork produces cork.

90
Vascular Cambium
  • Location between primary xylem and phloem.
  • Produces secondary xylem and phloem.

91
Fibers
Phloem
Vascular Cambium
Xylem
Fibers
92
Vascular Cambium Cell Maturation
  • Internal ? xylem
  • External ? phloem
  • The VC pushes the xylem and phloem apart from
    each other.

93
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94
Result
  • Newest xylem is next to the cambium.
  • Oldest xylem is in the center of stem.

95
Result
  • Newest phloem is next to cambium.
  • Oldest phloem is under the epidermis.

96
Result
  • Xylem accumulates over time.
  • Phloem is destroyed by the outward growth and
    must be replaced yearly.

97
Cork Cambium
  • Location Cortex (external to the VC).
  • Produces Cork
  • Comment commercial cork is harvested from a
    Cork Oak.

98
Cork Cells
  • Produced "outwardly" only.
  • Covered with suberin and are dead when mature.
  • Function insulation and protection.

99
Epidermis
Cork Cambium
Fibers
Cortex
Phloem
Vascular Cambium
Xylem
100
Bark
  • All tissues external to the VC.
  • Includes
  • Phloem (1 degree and 2 degree)
  • Cork
  • Cortex
  • Epidermis
  • Fiber cells

101
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102
Wood
  • Xylem tissue of a dicot stem.
  • Comment monocots dont have VC and technically
    dont produce true wood.

103
Xylem Growth
  • Springwood - Large cells
    Rapid growth
  • Summerwood - Small cells
    Slow growth

104
Annual Rings
  • Formed by the growth difference between
    springwood and summerwood.
  • Usually one produced per year.

105
Comment
  • Ring size varies by climate and growing
    conditions.
  • Rings can be used to date wooden structures.

106
Summer Wood
Spring Wood
One Years Growth
107
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108
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109
Angiosperms
  • Divided into two main types
  • 1. Dicotyledons or Dicots
  • 2. Monocotyledons or Monocots
  • Cotyledons seed leaves

110
Monocots vs. Dicots
  • 1. Seeds and embryos
  • 2. Leaves
  • 3. Stems
  • 4. Roots
  • 5. Flowers

111
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112
Seeds and Embryos
  • Dicots - no endosperm. - 2
    cotyledons.
  • Monocots - endosperm - 1
    cotyledon

113
Leaves
  • Dicots netted veins.
  • Monocots - parallel veins.

114
Stems
  • Dicots - ring pattern - vascular
    cambium
  • Monocots - scattered pattern -
    no vascular cambium

115
Roots
  • Dicots - taproot. -
    xylem centermost tissue.
  • Monocots - fibrous roots.
    - pith centermost tissue.

116
Flowers
  • Dicots parts in 4's or 5's.
  • Monocots parts in 3's.

117
Summary
  • Know the main organs of plants and their
    functions.
  • Know the main cell types or tissues in plants and
    their functions.

118
Summary
  • Know the structural organization of stems, roots,
    and leaves.
  • Know the differences between dicots and monocots.
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