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Transport in Plants

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Transport in Plants Chapter 36 Cellular Transport A. passive transport Driven by the principles of diffusion Much of the diffusion is facilitated Selective channels ... – PowerPoint PPT presentation

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Title: Transport in Plants


1
Transport in Plants
  • Chapter 36

2
Cellular Transport
  • A. passive transport
  • Driven by the principles of diffusion
  • Much of the diffusion is facilitated
  • Selective channels are usually gated and regulated

3
Cellular Transport
  • B. Active Transport
  • Often uses proton pump
  • Generates membrane potential
  • may be used to drive active transport of other
    molecules (cotransport)

4
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5
Cellular Transport
  • Water Transport
  • By osmosis water moves from hypotonic to
    hypertonic solution in cells
  • BUT in plant cell, cell wall provides a pressure
    component, therefore water potential must be used

6
Water potential review
  • What is ? of a container of distilled water that
    is open?
  • If ? inside a cell is -0.7 MPa, and outside of
    the cell is -0.1 MPa, which direction will water
    move?
  • If ?S-0.5MPa and ?P0.1MPa, will water move into
    or out of this cell if it is placed in an
    environment where ?-0.2 MPa?

7
Water Potential
  • Water moves from higher water potential (?) to
    lower water potential
  • ?0 in pure water at atmospheric pressure
  • ? and solute concentration have an inverse
    relationship
  • ? and pressure have a direct relationship

8
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9
Plant Cells and Water Potential
  • Plasmolysis protoplast pulls away from the cell
    wall due to loss of water
  • The pressure exerted on the cell wall is 0
  • Turgor pressure Pressure exerted on cell wall
    by protoplast due to influx of water
  • The pressure exerted on the cell wall is positive

10
Aquaporins
  • 1990s Peter Agre (Johns Hopkins) discovers
    water pores in membranes that facilitate
    diffusion of water
  • 2003 Nobel Prize in Chemistry along with Roderick
    MacKinnon
  • Water is small and can diffuse through bilayer to
    some extent despite polarity
  • Aquaporins speed up this diffusion
  • May be gated to regulate water diffusion

11
3 Cellular Compartments
  • Apoplast continuum of cell walls and
    extracellular spaces
  • Symplast continuum of cytosol linked by
    plasmodesmata
  • Vacuole bound by membrane called tonoplast

12
Lateral Transport
  • Short distance horizontal movement
  • Mechanisms
  • Transmembrane (through membranes from one cell to
    the next) slow
  • Symplastic (through one membrane into cell, then
    through plasmodesmata)
  • Apoplastic (through cell walls)

13
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14
Absorption by Roots
  • Root hairs increase surface area
  • Mycorrhizae (fungal partners) enhance absorption
  • Endodermis functions as selective region
  • Symplastic continues through plasmodesmata
  • Apoplastic must cross plasma membrane into
    cytosol due to Casparian strip
  • Casparian strip is waxy and hydrophobic, traps
    water and minerals in the vascular tissue

15
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16
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17
Bulk Flow
  • Movement of a fluid driven by pressure
  • In both xylem and phloem

18
Long Distance Transport in the Xylem
  • Root Pressure Pushing
  • Transpiration Pulling

19
Root Pressure
  • Used by some plants, at night
  • At night, plants still expend energy pumping
    minerals into xylem
  • Accumulation of nutrients decreases ? , causing
    water to flow in by osmosis
  • This upward push is root pressure
  • Guttation exudation of water droplets seen in
    the morning

20
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21
Transpiration
  • Major mechanism of movement
  • Water is adhesive and cohesive
  • As one water droplet moves, the next also moves
    (water in continuous column in xylem)
  • As water evaporates out of the stomata, water
    below moves upward

22
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23
Guard Cells
  • Guard cells regulate water loss.
  • What conditions will promote the closing of guard
    cells?
  • Buckle outward when turgid
  • Regulate opening and closing by managing K

24
Stomata
25
Guard Cells
  • Pump H out, K enters due to electric charge,
    water follows due to osmosis
  • Close when K leaves (water follows)
  • Aquaporins may vary permeability to regulate

26
  • Some leaf molds, which are fungi that parasitize
    plants, secrete a chemical that causes guard
    cells to accumulate potassium ions. How does this
    adaptation enable the leaf mold to infect the
    plant?

27
Guard Cell Cues
  • Light stimulates a blue light receptor in guard
    cells, activates H pumps
  • CO2 depletion when Calvin cycle starts
  • Can trick guard cells by placing in environment
    without CO2
  • Internal Clock
  • Open and close even in 24 hour dark
  • Circadian rhythm

28
What adaptations are seen for arid climates?
  • thick leaves (low SA/vol)
  • Thick cuticle
  • Stomata on lower leaf surface
  • Stomata in pores to shield wind
  • Shed leaves in hot dry season
  • Cacti have no leaves (adapt to spines)
  • CAM photosynthesis

29
Phloem Transport
  • Translocation
  • Sugar source to sugar sink
  • Sugar loaded into sieve tube members by active
    transport
  • Water follows by osmosis (increases pressure)
  • At sink, sugar leaves sieve tube members (by
    diffusion or active transport)
  • Water follows (decreases pressure)
  • Water is recycled by xylem

30
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31
Oleander stomata in cypts
32
Old Man cactus
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