Photosynthesis & Respiration Biology 9(B)
Photosynthesis & Respiration Learning Objectives Understand photosynthesis Understand respiration Relate photosynthesis and respiration After this lesson, you will know what occurs during photosynthesis and respiration. You will also be able to describe the interconnectedness between the two in terms of both matter and energy.
Energy & Matter All living things use energy Autotrophs can capture energy from the environment Heterotrophs must consume other organisms Matter cycles through ecosystems Constantly recycled and reused Energy flows through ecosystems In from the sun Transferred between organisms Out as heat All living things must use energy to perform required functions, such as growing and reproducing. Autotrophs such as plants can capture the energy the need from their environment. Heterotrophs such as humans must consume other organisms for energy. Matter cycles through ecosystems. This means that matter is constantly recycled and reused. For example, the oxygen atoms you are breathing have been breathed by countless other people and animals before you. These molecules might have come from water molecules or other compounds. Energy flows through ecosystems. The majority comes from the sun. It is then transferred between organisms through a food chain, and then leaves the ecosystem as heat. Without input from the sun and other sources, the flow of energy would stop.
Photosynthesis Stores Energy Photosynthesis process by which some autotrophs capture energy from the environment carbon dioxide solar energy water sugars oxygen Photosynthesis is the process by which some autotrophs capture energy from the environment. This process creates sugars, which can be used for energy later. Therefore, photosynthesis allows these autotrophs to store energy for later use. In this process, carbon dioxide, solar energy, and water are used within cells to create sugars and oxygen. In plants, this sugar is in the form of glucose. Stores Energy
Photosynthesis Can be expressed chemically 6CO2 + 6H2O + energy C6H12O6 + 6O2 Photosynthesis can be written as a chemical equation. Since carbon dioxide, water, and energy are used, these are the reactants. They react to make glucose and oxygen, the products. Reactants Products
Respiration Releases Energy Cellular Respiration process by which organisms convert sugars into usable energy and waste products sugars oxygen carbon dioxide energy water Cellular respiration is the process by which living things use energy from sugars. This process releases energy for immediate use in the form of ATP. Once used by the cell, this energy is released as heat. In this process, sugars and oxygen are used within cells to create carbon dioxide, energy, and water. Carbon dioxide and water are the waste products. The energy is used to power cellular activities, such as growth and transport of molecules. Releases Energy
Respiration Can be expressed chemically C6H12O6 + 6O2 6CO2 + 6H2O + energy Respiration can be written using chemical notation. Since glucose and oxygen are used, these are the reactants. They react inside cells to make carbon dioxide, water, and energy. Reactants Products
Photosynthesis & Respiration Autotrophs Captures energy Uses carbon dioxide, water, and solar energy Creates sugar and oxygen Respiration Autotrophs & heterotrophs Releases energy Uses sugar and oxygen Creates carbon dioxide and water, converts energy Photosynthesis and cellular respiration are related, but they have many differences. Photosynthesis can only be performed by autotrophs, such as plants. Respiration is done by all living things, both autotrophs and heterotrophs. Remember that heterotrophs must obtain stored energy such as sugars by consuming other organisms. Photosynthesis converts solar energy into sugars. Respiration converts this energy into ATP. As the ATP is used to do work, some of the energy is released as heat. Photosynthesis uses carbon dioxide, water, and energy while respiration uses sugar and oxygen. Photosynthesis creates sugar and oxygen while respiration creates carbon dioxide and water and converts energy. You may notice that the reactants of photosynthesis are the same as the products of respiration. Similarly, the products of respiration are the reactants of photosynthesis. Remember that matter flows through an ecosystem. Here, carbon, hydrogen, and oxygen atoms are being recycled as energy flows through and powers the process.
Photosynthesis & Respiration We can draw this relationship as a cycle. Photosynthesis begins with carbon dioxide and water. It is powered by energy from the sun. It produces sugar and oxygen. Respiration starts with sugar and oxygen. It releases energy and forms carbon dioxide and water as byproducts. Keep in mind that these molecules could be used as something else in the ecosystem, but they could re-enter this cycle.
Photosynthesis & Respiration 6CO2 + 6H2O + energy C6H12O6 + 6O2 Respiration C6H12O6 + 6O2 6CO2 + 6H2O + energy Remember that both photosynthesis and respiration can be written chemically. Here, you can see that the reactants of one process are the products of the other. Reactants Products
Photosynthesis & Respiration Learning Objectives Understand photosynthesis Understand respiration Relate photosynthesis and respiration You should now understand and be able to describe both photosynthesis and respiration. You should also be able to describe the interconnectedness between the two in terms of both matter and energy.