Transcript Plant resources and transport

How can trees be so tall...and get water to
their tops?
AP Biology
Also, check out the Bioflix on
water transport
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Transport in
Plants
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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
Why does
over-watering
kill a plant?
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
Aaaah…
Structure–Function
yet again!
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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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On a plant…
What’s a source…What’s a sink?
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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Any Questions?
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A step further
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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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REVIEW
1. How does transport differ going up
versus going down in plants?
2. Why do roots look like roots?
3. List three different plant functions
requiring symbiotic partners.
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