Stomatal Conductance and Porometry
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Transcript of Stomatal Conductance and Porometry
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Stomatal Conductance and PorometryTheory and Measurement
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Stomatal conductanceDescribes gas diffusion through
plant stomata◦ Plants regulate stomatal aperture in
response to environmental conditions
Described as either a conductance or resistance
Conductance is reciprocal of resistance◦ 1/resistance
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Stomatal conductanceCan be good indicator of plant water status/stressMany plants regulate water loss through stomatal
conductance
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Fick's Law for gas diffusion
E Evaporation (mol m-2 s-1)
C Concentration (mol mol-1)
R Resistance (m2 s mol-1)L leafa air
aL
aL
RRCCE
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Boundary layer resistance of the leaf
stomatal resistance of the leafrvs
Cvt
Cva
rva
Cvs
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Do stomata control leaf water loss?
Still air: boundary layer resistance controls
Moving air: stomatal resistance controls
Bange (1953)
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Obtaining resistances (or conductances)
Boundary layer conductance depends on wind speed, leaf size and diffusing gas
Stomatal conductance is measured with a leaf porometer
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Measuring stomatal conductance – 2 types of leaf porometer
Dynamic - rate of change of vapor pressure in chamber attached to leaf
Steady state - measure the vapor flux and gradient near a leaf
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Dynamic porometer
Seal small chamber to leaf surfaceUse pump and desiccant to dry air in
chamberMeasure the time required for the chamber
humidity to rise some preset amount
tCv
ΔCv = change in water vapor concentrationΔt = change in time
Stomatal conductance is proportional to:
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Delta T dynamic diffusion porometer
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Steady state porometer
Clamp a chamber with a fixed diffusion path to the leaf surface
Measure the vapor pressure at two locations in the diffusion path
Compute stomatal conductance from the vapor pressure measurements and the known conductance of the diffusion path
No pumps
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Steady state porometer
Teflon filter
Atmosphere
Desiccant
A chamber with a fixed diffusion path is clamped to the leaf surface
Steady-state technique; measures vapor pressure at two locations in a fixed diffusion path
Calculates flux and gradient from the vapor pressure measurements and the known conductance of the diffusion path.
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Decagon steady state porometer
Model SC-1
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Environmental effects on stomatal conductance: Light
Stomata normally close in the dark
The leaf clip of the porometer darkens the leaf, so stomata tend to close
Leaves in shadow or shade normally have lower conductances than leaves in the sun
Overcast days may have lower conductance than sunny days
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Environmental effects on stomatal conductance: Temperature
High and low temperature affects photosynthesis and therefore conductance
Temperature differences between sensor and leaf affect all diffusion porometer readings. All can be compensated if leaf and sensor temperatures are known
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Environmental effects on stomatal conductance: Humidity
Stomatal conductance increases with humidity at the leaf surface
Porometers that dry the air can decrease conductance
Porometers that allow surface humidity to increase can increase conductance.
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Environmental effects on stomatal conductance: CO2
Increasing carbon dioxide concentration at the leaf surface decreases stomatal conductance.
Photosynthesis cuvettes could alter conductance, but porometers likely would not
Operator CO2 could affect readings
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What can I do with a porometer?
Water use and water balance◦ Use conductance with Fick’s law to determine crop
transpiration rate◦ Develop crop cultivars for dry climates/salt affected
soils
Determine plant water stress in annual and perennial species◦ Study effects of environmental conditions◦ Schedule irrigation
Optimize herbicide uptakeStudy uptake of ozone and other pollutants
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Case study #2 Washington State University wheat
Researchers using steady state porometer to create drought resistant wheat cultivars◦Evaluating physiological response to
drought stress (stomatal closing)◦Selecting individuals with optimal
response
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Case study #3 Chitosan application
Evaluation of effects of Chitosan on plant water use efficiency◦ Chitosan induces stomatal
closure◦ Leaf porometer used to
evaluate effectiveness◦ 26 – 43% less water used while
maintaining biomass production
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Case Study 4: Stress in wine grapes
y = 0.0204x - 12.962R² = 0.5119
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Stomatal Conductance (mmol m-2 s-1)