02 Plant Transport
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Transcript 02 Plant Transport
Transport in
Plants
AP Biology
2006-2007
Transport in plants
H2O & minerals
transport in xylem
transpiration
evaporation, adhesion & cohesion
negative pressure
Sugars
transport in phloem
bulk flow
Calvin cycle in leaves loads sucrose into phloem
positive pressure
Gas exchange
photosynthesis
CO2 in; O2 out
stomates
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respiration
O2 in; CO2 out
roots exchange gases within air spaces in soil
Ascent of xylem fluid
Transpiration pull generated by leaf
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Water & mineral absorption
Water absorption from soil
osmosis
aquaporins
Mineral absorption
active transport
proton pumps
active transport of
H+
aquaporin
root hair
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proton
pumps
H2O
Mineral absorption
Proton pumps
active transport of H+ ions out of cell
chemiosmosis
H+ gradient
creates membrane
potential
difference in charge
drives cation uptake
creates gradient
cotransport of other
solutes against their
gradient
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Water flow through root
Porous cell wall
water can flow through cell wall route &
not enter cells
plant needs to force water into cells
Casparian strip
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Controlling the route of water in root
Endodermis
cell layer surrounding vascular cylinder of root
lined with impermeable Casparian strip
forces fluid through selective cell membrane
filtered & forced into xylem cells
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Root anatomy
dicot
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monocot
Mycorrhizae increase absorption
Symbiotic relationship between fungi & plant
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symbiotic fungi greatly increases surface area for
absorption of water & minerals
increases volume of soil reached by plant
increases transport to host plant
Mycorrhizae
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Transport of sugars in phloem
Loading of sucrose into phloem
flow through cells via plasmodesmata
proton pumps
cotransport of sucrose into cells down
proton gradient
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Pressure flow in phloem
Mass flow hypothesis
“source to sink” flow
direction of transport in phloem is
dependent on plant’s needs
phloem loading
active transport of sucrose
into phloem
increased sucrose concentration
decreases H2O potential
water flows in from xylem cells
increase in pressure due to
increase in H2O causes flow
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can flow
1m/hr
Experimentation
Testing pressure flow
hypothesis
using aphids to measure sap
flow & sugar concentration
along plant stem
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Maple
sugaring
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Endodermis &
Casparian strip
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Control of Stomates
Guard cell
Epidermal cell
Uptake of K+ ions
by guard cells
proton pumps
water enters by
osmosis
guard cells
become turgid
H2O
K+
H2O
K+
Loss of K+ ions
Nucleus
Chloroplasts
H2O
K+
H2O
K+
K+
H2O
K+
H2O
K+
H2O
K+
H2O
Thickened inner
cell wall (rigid)
by guard cells
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water leaves by
osmosis
H2O
K+
guard cells
become flaccid
H2O
K+
H2O
K+
H2O
K+
Stoma open
Stoma closed
water moves
into guard cells
water moves out
of guard cells
Control of transpiration
Balancing stomate function
always a compromise between
photosynthesis & transpiration
leaf may transpire more than its weight in
water in a day…this loss must be balanced
with plant’s need for CO2 for photosynthesis
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