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The Energy Cycle

6 April, 2016 - 17:26

Living things access energy by breaking down carbohydrate molecules. However, if plants make carbohydrate molecules, why would they need to break them down? Carbohydrates are storage molecules for energy in all living things. Although energy can be stored in molecules like ATP, carbohydrates are much more stable and efficient reservoirs for chemical energy. Photosynthetic organisms also carry out the reactions of respiration to harvest the energy that they have stored in carbohydrates, for example, plants have mitochondria in addition to chloroplasts.

You may have noticed that the overall reaction for photosynthesis:

6\textrm{CO}_2+6\textrm{H}_2\textrm{O}\rightarrow \textrm{C}_6\textrm{H}_{12}\textrm{O}_6+6\textrm{O}_2

is the reverse of the overall reaction for cellular respiration:

6\textrm{O}_2+\textrm{C}_6\textrm{H}_{12}\textrm{O}_6\rightarrow 6\textrm{CO}_2+6\textrm{H}_2\textrm{O}

Photosynthesis produces oxygen as a byproduct, and respiration produces carbon dioxide as a byproduct.

In nature, there is no such thing as waste. Every single atom of matter is conserved, recycling indefinitely. Substances change form or move from one type of molecule to another, but never disappear (Figure 5.18).

\textrm{CO}_2 is no more a form of waste produced by respiration than oxygen is a waste product of photosynthesis. Both are byproducts of reactions that move on to other reactions. Photosynthesis absorbs energy to build carbohydrates in chloroplasts, and aerobic cellular respiration releases energy by using oxygen to break down carbohydrates. Both organelles use electron transport chains to generate the energy necessary to drive other reactions. Photosynthesis and cellular respiration function in a biological cycle, allowing organisms to access life-sustaining energy that originates millions of miles away in a star.

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Figure 5.18
In the carbon cycle, the reactions of photosynthesis and cellular respiration share reciprocal reactants and products.