Brandt semigroup: Difference between revisions

Revision as of 07:08, 13 January 2014

By definition, stomatal conductance, usually measured in mmol m⁻² s⁻¹, is the measure of the rate of passage of carbon dioxide (CO₂) entering, or water vapor exiting through the stomata of a leaf. Stomata are small pores on the top and bottom of a leaf that are responsible for taking in and expelling CO₂ and moisture from and to the outside air. The rate of stomatal conductance, or its inverse, stomatal resistance, is directly related to the boundary layer resistance of the leaf and the absolute concentration gradient of water vapor from the leaf to the atmosphere. It is under direct biological control of the leaf through the use of guard cells, which surround the stomatal pore ^[1] (Taiz/Zeiger 1991). Stomatal conductance is integral to leaf level calculations of transpiration (E).

Methods for Measuring

Stomatal conductance can be measured in several ways: Steady-state porometers: A steady state porometer, such as the SC-1 Leaf Porometer from Decagon Devices, Inc., measures stomatal conductance using a sensor head with a fixed diffusion path to the leaf. It measures the vapor concentration at two different locations in the diffusion path. It computes vapor flux from the vapor concentration measurements and the known conductance of the diffusion path using the following equation:^[2]

${\frac {C_{vL}-C_{v1}}{R_{vs}+R_{1}}}={\frac {C_{v1}-C_{v2}}{R_{2}}}$

Where $C_{vL}$ is the vapor concentration at the leaf, $C_{v1}$ and $C_{v2}$ are the concentrations at the two sensor locations, $R_{vs}$ is the stomatal resistance, and $R_{1}$ and $R_{2}$ are the resistances at the two sensors. If the temperatures of the two sensors are the same, concentration can be replaced with relative humidity, giving

$R_{vs}={\frac {1-h_{1}}{h_{2}-h_{1}}}R_{2}-R_{1}$

Stomatal conductance is the reciprocal of resistance, therefore

$g_{vs}={\frac {1}{R_{vs}}}$ .

A dynamic porometer, such as the Delta-T AP4, measures how long it takes for the humidity to rise from one specified value to another in an enclosed chamber clamped to a leaf. The resistance $R$ is then determined from the following equation:

$\Delta t={\frac {\left(R+A\right)l\Delta h}{1-h}}$

where ∆ $t$ is the time required for the cup humidity to change by ∆ $h$ , $h$ is the cup humidity, $l$ is the cup “length,” and $A$ is an offset constant.

Null balance porometers, such as the http://envsupport.licor.com/index.jsp?m=Discontinued&menu=Porometers&spec=LI-1600 LI-1600], from LI-COR, maintain a constant humidity in an enclosed chamber by regulating the flow of dry air through the chamber and find stomatal resistance from the following equation:

$R_{vs}={\frac {A}{f}}\left({\frac {1}{h}}-1\right)-R_{va}$

where $R_{vs}$ is the stomatal resistance, $R_{va}$ is the boundary layer resistance, $A$ is the leaf area, $f$ is the flow rate of dry air, and $h$ is the chamber humidity.

The resistance values found by these equations are typically converted to conductance values.

References

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[1] 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.

My blog: http://www.primaboinca.com/view_profile.php?userid=5889534

[2] Template:Cite web

[1]

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+By definition, '''stomatal conductance''', usually measured in mmol m⁻² s⁻¹, is the measure of the rate of passage of carbon dioxide (CO<sub>2</sub>) entering, or water vapor exiting through the [[stoma]]ta of a leaf. Stomata are small pores on the top and bottom of a leaf that are responsible for taking in and expelling CO<sub>2</sub> and moisture from and to the outside air.
+The rate of stomatal conductance, or its inverse, stomatal resistance, is directly related to the boundary layer resistance of the leaf and the absolute concentration gradient of water vapor from the leaf to the atmosphere. It is under direct biological control of the leaf through the use of guard cells, which surround the stomatal pore <ref>{{cite book|last=Taiz/Zeiger|title=Plant Physiology|year=1991|publisher=The Benjamin/Cummings Publishing Company, Inc.|location=Redwood City, CA|isbn=0-8053-0245-X|pages=92–95}}</ref> (Taiz/Zeiger 1991).
+Stomatal conductance is integral to leaf level calculations of [[transpiration]] (E).
+==Methods for Measuring==
+Stomatal conductance can be measured in several ways:
+Steady-state porometers:
+A ''steady state porometer'', such as the [http://www.decagon.com/products/environmental-instruments/stomatal-conductance-porometry-instruments-2/sc-1-porometer-for-stomatal-conductance-measurements/ SC-1 Leaf Porometer] from Decagon Devices, Inc., measures stomatal conductance using a sensor head with a fixed diffusion path to the leaf. It measures the vapor concentration at two different locations in the diffusion path. It computes vapor flux from the vapor concentration measurements and the known conductance of the diffusion path using the following equation:<ref>{{cite web|title=First Look at Decagon's New Porometer|url=http://www.decagon.com/education/canopy-news-4/|work=Canopy News 2006|publisher=Decagon Devices, Inc.|accessdate=14 June 2011}}</ref>
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+<math>\frac{C_{vL}-C_{v1}}{R_{vs}+R_1}=\frac{C_{v1}-C_{v2}}{R_2}</math>
+Where <math>C_{vL}</math> is the vapor concentration at the leaf, <math>C_{v1}</math>  and <math>C_{v2}</math>  are the concentrations at the two sensor locations, <math>R_{vs}</math> is the stomatal resistance, and <math>R_1</math> and <math>R_2</math> are the resistances at the two sensors. If the temperatures of the two sensors are the same, concentration can be replaced with relative humidity, giving
+<math>R_{vs}=\frac{1-h_1}{h_2-h_1}R_2-R_1</math>
+Stomatal conductance is the reciprocal of resistance, therefore
+<math>g_{vs}=\frac{1}{R_{vs}}</math> .
+A ''dynamic porometer'', such as the Delta-T AP4, measures how long it takes for the humidity to rise from one specified value to another in an enclosed chamber clamped to a leaf. The resistance <math>R</math> is then determined from the following equation:
+<math>\Delta t=\frac{\left(R+A\right)l\Delta h}{1-h}</math>
+where ∆<math>t</math> is the time required for the cup humidity to change by ∆<math>h</math> , <math>h</math> is the cup humidity, <math>l</math> is the cup “length,” and <math>A</math> is an offset constant.
+''Null balance porometers'', such as the http://envsupport.licor.com/index.jsp?m=Discontinued&menu=Porometers&spec=LI-1600 LI-1600], from [[LI-COR]], maintain a constant humidity in an enclosed chamber by regulating the flow of dry air through the chamber and find stomatal resistance from the following equation:
+<math>R_{vs}=\frac{A}{f}\left(\frac{1}{h}-1\right)-R_{va}</math>
+where <math>R_{vs}</math> is the stomatal resistance, <math>R_{va}</math> is the boundary layer resistance, <math>A</math> is the leaf area, <math>f</math> is the flow rate of dry air, and <math>h</math> is the chamber humidity.
+The resistance values found by these equations are typically converted to conductance values.
+===References===
+<references />
+[[Category:Plant physiology]]

Brandt semigroup: Difference between revisions

Revision as of 07:08, 13 January 2014

Methods for Measuring

References

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