Chapter 10: 10.3-3CC (page 202)
Explain why a poison that inhibits an enzyme of the Calvin cycle will also inhibit the light reactions.
The poison may inhibit the productions of ADP and NADP+. It, in turn, stops the Calvin cycle that hinders the light reactions.
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Based on the data in the scatter plot, estimate the percentage change in dry mass of corn and velvetleaf plants if atmospheric CO2 concentration increased from 390 ppm(current levels) to 800 ppm. (a) What is the estimated dry mass of corn and velvetleaf plants at 390ppm? 800 ppm? (b) To calculate the percentage change in mass for each plant. Subtract the mass at 390 ppm from the mass at 800ppm(change in mass), divide by the mass at 390ppm (initial mass), and multiply by 100. What is the estimated percentage change in dry mass for corn? For velvet leaf? (C) Do these results support the conclusion from the other experiments that C3 plants grow better than C4 plants under increased CO2 concentration? Why or why not?
Refer to the discussion of ocean acidification in Concept 3.3. Ocean acidification and changes in the distribution of C3and C4 plants may seem to be very different problems, but what do they have in common? Explain.
The following diagram represents an experiment with isolated thylakoids. The thylakoids were first made acidic by soaking them in a solution at pH 4. After the thylakoid space reached pH 4, the thylakoids were transferred to a basic solution at pH 8. The thylakoids then made ATP in the dark. (See Concept 3.3 to review pH.).
Draw an enlargement of part of the thylakoid membrane in the beaker with the solution at pH 8. Draw ATP synthase. Label the areas of high H+ concentration and low H+ concentration. Show the direction protons flow through the enzyme and show the reaction where ATP is synthesized. Would ATP end up in the thylakoid or outside of it? Explain why the thylakoids in the experiment were able to make ATP in the dark.
Which of the following statements is a correct distinction between autotrophs and heterotrophs?
(A) Autotrophs, but not heterotrophs, can nourish themselves, beginning with CO2 and other nutrients that are inorganic.
(B) Only heterotrophs require chemical compounds from the environment.
(C) Cellular respiration is unique to heterotrophs.
(D) Only heterotrophs have mitochondria.
Describe the trends shown by the regression lines in your scatter plot. (a) Compare the relationship between the increasing concentration of CO2 and the dry mass of corn to that for velvetleaf. (b) Considering that velvetleaf is a weed invasive to cornfields, predict how increased CO2 concentration may affect interactions between the two species.
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