Light Problem - Green River Community College
Download
Report
Transcript Light Problem - Green River Community College
UV and Insect eyes
LIGHT
&
PHOTOSYNTHESIS
Spectrum
Fate of intercepted light?
Reflect
Transmit
Absorb
Fate of leaf intercepted light?
Reflect - (6-12% PAR, 70% infrared, 3% UV)
Degree of reflection varies with type of leaf
surface
Transmit - average 10-20% (primarily green and
far red)
What would influence this?
thickness and structure of leaf
Absorb – What does this depend upon?
Fig. 5.4
Absorption
What determines how much light a plant
or a group of plants will intercept?
Quantity and position of leaves
Leaf area index
Leaf Area Index
LAI
Interpretation of LAI see fig 5.5 (d) pg 47
(m2 leaf area/m2 ground area)
LAI 3 means 3m2 leaf area over each m2
of ground
LAIs of different canopy types
Summer Temperate Deciduous Forest:
LAI 3-5 (1-5% light hitting canopy
reaches floor)
Summer Pine Forest
LAI 2-4 (10-15% light hitting canopy
reaches floor)
Tropical Rain Forest
LAI 6-10 (.25 – 2% light reaches floor)
Light levels and LAI
Why is the amount of light reaching the
forest floor of the pine forest greater
than that of the deciduous forest?
Does the LAI of an area change
throughout the year?
What are the consequences of this for
plants of the forest floor?
Light Levels
Are there other factors other than LAI
and leaf angle that would influence the
amount of light a forest floor organism
might receive?
See Fig. 5.7 page 49
Light levels: year profile
Photosynthetic Terms
PAR – photosynthetically active
radiation
Light compensation point (LCP)
Light saturation point (LSP)
photoinhibition
PS terms expanded
Light compensation point: rate of C02
uptake in PS = rate of C02 loss in
Respiration
Short version rate of PS = rate of
respiration
Light Saturation Point – Point at
which increasing light does not
increase PS
Photoinhibition - High light levels
inhibit PS
LCP
Shade –tolerant
Low PS rates
Low respiration rates
Low metabolic rates
Low growth rates
Shade -intolerant
Higher PS rates
Higher respiratory rates
Higher growth rates
Lower survival in shade conditions
Shade and
Seedlings
Apply your Smarts
How does the concentration of
Rubisco relate to photosynthesis
rate?
What does the production of Rubisco
have to do with respiration?
What do respiration rates have to do
with tolerance to shade?
Apply your Smarts
What do respiration rates have to do
with the light compensation point?
What does the light compensation
point have to do with shade tolerance
or intolerance?
In general what types of plants would
you expect to have a lower light
saturation point: shade inotlerant or
shade tolerant Why?
Apply your Smarts
What would you change in a plant that
would increase or lower the light
compensation point?
Plant a shade intolerant plant in the
shade. What would the plant do to
compensate for being in low light?
Leafs and Light
How does the amount of light a leaf
receives influence its shape and sizE?
See page 52
And what does surface area and
volume have to do with it?
Shade-Sun leaf
PS and Temperature
See page 59 Fig. 6.3-6.4
PS and Temperature
PS and
temp
Plants and Temperature
Heat gain and loss – What are the
parameters?
Reflectivity of leaf and bark
Orientation of leaves to sun and
wind?
Size and shape of leaves Frost
hardiness –
Transpiration cooooooling………
Plants and Temperature
Frost hardiness – mostly genetic
Addition of protective compounds
(antifreeze type) allows super cooling
Ice forms in the cell wall????
Transpiration cooooooling………
Temperature and plants
Photosynthesis
Light Absorption
PS Activity Problem
100%
Relative
PS activity
0%
400
500
600
Wavelength
700
Light Problem
A
B
C
D
100%
Relative
Absorbency
0%
400
500
600
700
Wavelength (nm)
Photosynthesis
6CO2 + 12 H20 ---> C6H12O6 + 6H20 + 602
OR
6CO2 + 6 H20 ---> C6H12O6 + 602
PS Problem
If you put a plant in a closed container
with an atmosphere of 14C02, and H2180
where would you find the radioactive
carbon and the heavy oxygen (180) in
the container and/or plant?
Fates of reactants
H 20
C6H1206
02
H20
H 20
C02
Movement of water