
Identify the source of energy for autotrophs and heterotrophs?
Answer
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Hint: Photosynthesis is the first step in the transmission of energy through living organisms. The energy from the sun is stored in the chemical bonds of glucose in this process. Cells release stored energy and produce the ATP they require by breaking the chemical bonds in glucose. Cellular respiration is the mechanism through which glucose is broken down and ATP is produced.
Complete answer:
Heterotrophs rely on autotrophs for energy, but heterotrophs get their energy from the sun.
Explanation: The autotrophs, i.e., producers of green plants, obtain energy-rich food materials by catching solar energy, whereas the heterotrophs rely on the autotrophs, i.e., producers, for energy.
There are many distinctions, but it all starts with sunlight in terms of energy. Plants absorb the sun's energy and convert it to food. You can spend hours and hours in the sun. You'll be toasty, but you won't be absorbing any energy. You must consume food in order to obtain energy.
Chemical energy is stored by autotrophs in carbohydrate food molecules that they create themselves. Chemical energy is stored in organic molecules as food.
Food gives us the energy to work and the carbon we need to grow our bodies. We call the mechanism most autotrophs utilise photosynthesis because they use sunlight to generate food. This life-giving energy transformation is only possible in three types of organisms: plants, algae, and some bacteria. Autotrophs produce food for themselves, but they also produce enough to support other forms of life.
Almost all other organisms are completely reliant on these three groups for their food. The producers, also known as autotrophs, start food chains that nourish all life. The notion of "Food Chains and Food Webs" will cover food chains.
Heterotrophs are unable to produce their own nourishment and must ingest or absorb it. Heterotrophs are also called consumers because of this. All mammals and fungi, as well as many protists and bacteria, are consumers.
Note:
Over 99 percent of the energy needed for life on Earth comes from photosynthesis. The chemical energy stored in inorganic compounds such as hydrogen sulphide, ammonia, or methane is used by a considerably smaller group of autotrophs, usually bacteria in dark or low-oxygen settings, to make food. During photosynthesis, light energy is converted to chemical energy.
Complete answer:
Heterotrophs rely on autotrophs for energy, but heterotrophs get their energy from the sun.
Explanation: The autotrophs, i.e., producers of green plants, obtain energy-rich food materials by catching solar energy, whereas the heterotrophs rely on the autotrophs, i.e., producers, for energy.
There are many distinctions, but it all starts with sunlight in terms of energy. Plants absorb the sun's energy and convert it to food. You can spend hours and hours in the sun. You'll be toasty, but you won't be absorbing any energy. You must consume food in order to obtain energy.
Chemical energy is stored by autotrophs in carbohydrate food molecules that they create themselves. Chemical energy is stored in organic molecules as food.
Food gives us the energy to work and the carbon we need to grow our bodies. We call the mechanism most autotrophs utilise photosynthesis because they use sunlight to generate food. This life-giving energy transformation is only possible in three types of organisms: plants, algae, and some bacteria. Autotrophs produce food for themselves, but they also produce enough to support other forms of life.
Almost all other organisms are completely reliant on these three groups for their food. The producers, also known as autotrophs, start food chains that nourish all life. The notion of "Food Chains and Food Webs" will cover food chains.
Heterotrophs are unable to produce their own nourishment and must ingest or absorb it. Heterotrophs are also called consumers because of this. All mammals and fungi, as well as many protists and bacteria, are consumers.
Note:
Over 99 percent of the energy needed for life on Earth comes from photosynthesis. The chemical energy stored in inorganic compounds such as hydrogen sulphide, ammonia, or methane is used by a considerably smaller group of autotrophs, usually bacteria in dark or low-oxygen settings, to make food. During photosynthesis, light energy is converted to chemical energy.
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