No, Autotrophs are producers that make their own food for example plants using light for photosynthesis.
Heterotrophs eat the autotrophs, so really autotrophs support the heterotrophs in the cycle.
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Consumers are heterotrophs. Autotrophs are producers.
Autotrophs don't necessarily "make" anything that heterotrophs need. The word autotroph means that the organism produces its own source of food. Heterotrophs depend on autotrophs as an essential source of food and nutrients (nitrogen, etc.).
A food web shows the transfer of energy from autotrophs (plants who create their own energy) through different levels of heterotrophs (animals which must eat to gain energy). Since there are a limited number of autotrophs, there are a limited number of sources of energy for the heterotrophs. You can see that not all heterotrophs will eat autotrophs, they will eat other heterotrophs so that there are more autotrophs left to be eaten.
Heterotrophs get nitrogen from the food they consume in autotrophs like plants to get nitrate salts contained in the plants.
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A heterotroph is an organism that cannot synthesize its own food where as autotrophs can synthesize their own food. So heterotrophs are dependent on autotrophs for food. For example a cow (heterotroph) eats grass (autotroph).
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No those are heterotrophs. Autotrophs make their own food.
heterotrophs and autotrophs depend on each when heterotrophs obtain food by decomposing other organisms. To live, all organisms, including plants, must release the energy in sugars and other compounds.
Heterotrophs do not make their own food and autotrophs make their own food. Autotroph=Plants Heterotroph=Animals
Consumers are heterotrophs. Autotrophs are producers.
Autotrophs don't necessarily "make" anything that heterotrophs need. The word autotroph means that the organism produces its own source of food. Heterotrophs depend on autotrophs as an essential source of food and nutrients (nitrogen, etc.).
A food web shows the transfer of energy from autotrophs (plants who create their own energy) through different levels of heterotrophs (animals which must eat to gain energy). Since there are a limited number of autotrophs, there are a limited number of sources of energy for the heterotrophs. You can see that not all heterotrophs will eat autotrophs, they will eat other heterotrophs so that there are more autotrophs left to be eaten.
An autotroph creates its own food/energy source, typically through photosynthesis. Heterotrophs rely upon outside sources for food/energy. The lowest level of heterotrophs are herbivores, or plant (aka autotrophs) eaters. Progressing up the food chain there are also carnivores (meat - aka other heterotrophs - eaters) and omnivores (will eat both plants and animals). The relationship from the heterotrophs side is fairly simple and easy to see - autotrophs are a food/energy source. The flipside, is that the heterotrophs, through bodily waste and other decaying matter, leave the minerals and nutrients that the autotrophs require to complete the photosynthetic process. In essence, the relationship is cyclical.
Heterotrophs
Heterotrophs