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Chapter 36: Q36.2-4ITD. (page 788)

Would you expect plant growth to have a Q10 closer to 1 or 3? Why?

Short Answer

Expert verified

TheQ10for plant growth must be closer to 3 because ATP (adenosine triphosphate) is required for macromolecule synthesis. The synthesis of ATP is a chemical process.

Step by step solution

01

Temperature coefficient, Q10

Temperature coefficient Q10 is a factor that increases the rate of a physical process when the temperature is raised by 10°C. It is a value that describes the relationship between the changes in a physical process due to temperature change.

Chemical processes that are sensitive to temperature have Q10 values close to 2 or 3. However, physical processes have Q10 values close to 1. Thus, Q10 is used to conclude about a physiological process being studied.

02

Formula to calculate temperature coefficient, Q10

The formula to calculate temperature coefficient:

Q10=k2k110t2-t1

Where t2 and t1 are higher and lower temperatures, respectively, and k2 and k1 are reaction rates at t2 and t1, respectively.

03

Step 3: Q10 for plant growth is closer to 3

Water uptake by seeds is a physical process, so its Q10 is close to 1. Plants require ATP for macromolecules synthesis for their growth. This explains the fact that initial water uptake by seeds is a physical process.

However, the growth of seedlings eventually into a plant is a chemical process. As a result, Q10 for plant growth must be closer to 3.

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Most popular questions from this chapter

Besides temperature, what other independent variables could you alter to test whether radish seed swelling is essentially a physical process or a chemical process?

(a) Using the data for 35°C and 25°C, calculate Q10 for water uptake by radish seeds. Repeat the calculation using the data for 25°C and 15°C and the data for 15°C and 5°C. (b) What is the average Q10? (c) Do your results imply that the uptake of water by radish seeds is mainly a physical process or a chemical (metabolic) process? (d) Given that the Q10 for the change in the viscosity of water is 1.2–1.3, could the slight temperature dependence of water uptake by seeds be a reflection of the slight temperature dependence of the viscosity of water?

Imagine yourself as a water molecule in the soil solution of a forest. In a short essay (100–150 words), explain what pathways and what forces would be necessary to carry you to the leaves of these trees.

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Compare and contrast the forces that move phloem sap and xylem sap over long distances.
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