The effect of light intensity on the amount of chlorophyll in “Cicer arietinum”
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Site |Mean length, cm |Rank (R1) |Mass of chl. In 1 g |Rank (R2) |D (R1-
R2) |D^2 | |1 |41,89 |1 |0,0000 |7 |-6 |36 | |2 |41,76 |2 |0,0496 |6 |-4
|16 | |3 |36,33 |4 |0,1462 |4 |0 |0 | |4 |19,81 |6 |0,1769 |2 |4 |16 | |5
|41,33 |3 |0,0697 |5 |-2 |4 | |6 |29,33 |5 |0,1557 |3 |2 |4 | |7 |18,64 |7
|0,1939 |1 |6 |36 | | | | | | | | | |
Rs = -1
| | | | | | | | | | | | | | | |
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Table 7. The correlation between mean dry biomass and mass of chlorophyll per 1 g of plant.
Site |Mean dry biomass, g |Rank (R1) |Mass of chl. In 1 g |Rank (R2) |D
(R1-R2) |D^2 | |1 |0,041 |4 |0,0000 |7 |-3 |9 | |2 |0,056 |1 |0,0496 |6 |-5
|25 | |3 |0,033 |6 |0,1462 |4 |2 |4 | |4 |0,018 |7 |0,1769 |2 |5 |25 | |5
|0,047 |2 |0,0697 |5 |-3 |9 | |6 |0,043 |3 |0,1557 |3 |0 |0 | |7 |0,034 |5
|0,1939 |1 |4 |16 | | | | | | | | | | | | | | | | | |Rs = -0,57 | | | | | |
| |
| | | | | | | | | | | | | | | | | | | | | | | |
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V. Discussion.
Several tendencies can be clearly seen.
For the first, with the increase of light intensity mean length of plants is decreasing, but there are exceptions. For light intensity 142 lux the value of mean length is approximately equal to the values of length for light intensities 0 lux and 20,5 lux. If exclude this data it is also seen that for light intensity equal to 680 lux mean length is also slightly falling out from the main tendency – decreasing from 19.81 cm.
The second tendency is increase of mass of chlorophyll per 1 gram of plant biomass with the increase of light intensity. But the values of mass of chlorophyll of those plants under light intensities 142 lux and 680 lux are falling out from the main tendency. The first and the second ones are too small – approximately equal to the value corresponding to 20.5 lux light intensity and to 89.5 lux respectively. This may happen because not all the seeds of Cicer arietnum were of the same quality, because it is impossible to guarantee that more than 250 seeds in one box have the same high quality. At the mean time it was expected that starting from the light intensity more than 680 lux the amount of chlorophyll in plants will decrease, because the value of destructed chlorophyll with be bigger than the value of newly formatted. But the experiments showed that the amount of chlorophyll was constantly increasing even when the light intensity level exceeded the point 1220 lux. This could happen because light intensity equal to 1220 lux is not so extremely high that the amount of total chlorophyll in plants will start decreasing.
Also it is clearly seen that there are no correlations between light intensity and values of wet and dry biomass.
Basing on these arguments the sudden decrease of the amount of chlorophyll in plants placed on light intensity equal to 142 lux was likely to be insignificant and could not be considered as a trend.
But it is impossible to forget such important factor as plant hormones
that affect the growth and development of plants. There are five generally
accepted types of hormones that influence plant growth and development.
They are: auxin, cytokinin, gibberellins, abscic acid, and ethylene. It is
not one hormone that directly influences by sheer quantity. The balance and
ratios of hormones present is what helps to influence plant reactions. The
hormonal balance possibly regulates enzymatic reactions in the plant by
amplifying them.
VI. Conclusion.
Due to results of my investigation it is seen that my hypothesis didn’t confirm fully (for example, comparing the diagram 1 and diagram 7), because I proposed that when light intensities will be very high, mass of chlorophyll in plant will start decreasing and due to my observations it didn’t happen. I should say that the only reason I can suggest is that I haven’t investigated such extremely high light intensities, so that chlorophyll start destructing. But if we will not pay attention to that fact the other part of my hypothesis was confirmed and mass of chlorophyll in plants increased with the increase of light intensity. Furthermore I didn’t estimate amount of plant hormones and so didn’t estimate their influence on results.
Questions for further investigation:
1. Investigating very high light intensities.
2. Implementation of colorimetric analysis.
3. Paying attention to estimation of plant hormones level.
Those questions should be further investigated in order to get clearer picture and more accurate results of the dependence of the amount of chlorophyll in plants on the light intensity, knowing the fact that the amount of chlorophyll has a tendency to decrease at extremely high light intensities. So this statement needs an experimental confirmation and as in this investigation conditions with extremely light intensity were not created in further investigations they have to be created.
Implementation of colorimetric analysis is also very important thing, because it gives much more accurate results comparing with the titration
method. The colorimetric method suggests that as different pigments absorb
different parts of light spectrum differently, the absorbance of a pigments
mixture is a sum of individual absorption spectra. Therefore the quantity
of each individual pigment in a mixture can be calculated using absorbance
of the certain colors and molecular coefficients of each pigment. This was
proposed by D. A. Sims, and J. A. Gamon (California State University,
USA)[5] with the reference on Lichtenthaler (1987).
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