Campbell Essential Biology with Physiology (5th Edition)
5th Edition
ISBN: 9780321967671
Author: Eric J. Simon, Jean L. Dickey, Jane B. Reece, Kelly A. Hogan
Publisher: PEARSON
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Chapter 7, Problem 12PS
Summary Introduction
To determine:
The color of light, of plant from the given graph in question number 15, the plant lacks chlorophyll and relies only on carotenoids for photosynthesis and how this plant appear to the eye.
Introduction:
Chlorophyll is a pigment present in green plant and algae. This pigment absorbs the sunlight and converts the light energy into chemical energy. The chlorophyll transmits green color of light and appears as a green color. Carotenoid is also a yellow or red color pigment molecule present in plants, algae and some bacteria and fungi. This pigment protects chlorophyll from photodamage and also absorbs solar energy for photosynthesis.
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Chapter 7 Solutions
Campbell Essential Biology with Physiology (5th Edition)
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- A. The C4 plant performs photosynthesis more efficiently than the C3 when the CO2 concentration is 600ppm or less. Provide one reason why the rate of photosynthesis doesn’t change for the C4 plant when the CO2 concentration increases above 400 ppm. B. Discuss what is happening in the C3 plant when the CO2 levels are below 50 ppm. Provide one reason why this does NOT happen to the C4 plant.arrow_forwardLight that the chlorophyll-a pigment uses may be measured by the solar-induced fluorescence (650-850nm). This fluorescence caused by the sun and a plant's gross primary output are correlated linearly. Why can solar induced fluorescence be used to infer net photosynthesis?arrow_forwardLight exposure in plants vs height. What is an appropriate graph for the data? Thank you.arrow_forward
- 100- 50- 400 450 500 550 600 650 700 Wavelength (nm) In the absorption spectrum shown above, what wavelength ranges are not efficiently absorbed by this photopigment? 400-450nm 450-700nm 450-650nm 650-700nmarrow_forwardLight that the chlorophyll-a pigment uses may be measured by the solar-induced fluorescence (650-850nm). This fluorescence caused by the sun and a plant's gross primary output are correlated linearly. Why does this reasoning shows that solar induced fluorescence can be used to infer net photosynthesis?arrow_forwardGiven the chromatogram of the spinach leaves extract in a normal phase from the experiment you conducted, arrange the components from least polar to most polar. O Carotene, Xanthrophyll, Chlorophyll A, ChlorophyllI B O Chlorophyll B, Chlorophyll A, Carotene, Xanthrophyll O Chlorophyll A, Chlorophyll B, Xanthrophyll, Carotene O Carotene, Xanthrophyll, Chlorophyll B, Chlorophyll Aarrow_forward
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- 700 600 Wavelength (nm) 500 Chlorophyll b is associated with the greatest rate of photosynthesis. The photosynthesis rate at 550 nm is the highest. Chlorophyll a absorbs wavelengths at both ends of the spectrum Carotenoids absorb the narrowest range of wavelengths of lightarrow_forwardThe graph above illustrates the absorption spectrum of chlorophyll a ONLY. Which colors of the visible light spectrum are absorbed best by chlorophyll a?arrow_forwardPhotosynthetic response curve to light for sun (solid line, N = 14) and shade leaves (dashed line, N = 21) of S. Why in this graph do we see shaded leaves have lower values compared to light leaves as PAR is increasing?arrow_forward
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