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A heterotroph is an organism that must consume organic material for energy. Heterotrophs obtain carbon and nitrogen from the foods they consume. All living things contain some amount of protein, and proteins contain the nitrogen that heterotrophs need. Carbon is found in proteins, fats, and carbohydrates, so whatever a heterotroph eats, it will get lots of carbon.

Heterotrophs get nitrogen and carbon from their food. Primary consumers get them by eating plants. Whereas secondary consumers get them from eating primary consumers.

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How do heterotrophs get their nitrogen?

Heterotrophs obtain nitrogen by consuming organic matter containing proteins or amino acids. They break down these complex molecules into simpler forms through digestion, allowing them to absorb and utilize nitrogen for various cellular functions.


How do heterotrophs get carbon molecules?

Heterotrophs obtain carbon molecules by consuming other organisms or organic matter. They break down the complex organic molecules into simpler forms through processes like digestion and cellular respiration to obtain the carbon they need for growth and energy production.


How do autotrophs obtain energy and how do heterotrophs obtain energy?

Heterotrophs obtain energy from foods they consume, and Autotrophs obtain energy by the sun light


What is the role of autotrophs and heterotrophs in the cycling of nitrogen through the environment?

Autotrophs get the nitrogen from the soil by the nitrogen fixing bacteria that convert nitrogen to nitrate salts used up by plants while heterotrophs gets them when they consume the autotrophs, making them have some of the nitrates in palnts. Autotrophs and heterotrophs then die and are decomposed by bacteria to recycle the nitrogen in air . Some of those bacteria converts the nitrates into form of nitrogen recycling them into the atmosphere.


How do autotrophs and heterotrophs differ in way they obtain energy?

Heterotrophs obtain energy from foods they consume, and Autotrophs obtain energy by the sun light


Autotrophs and heterotrophs use carbon containing molecules for energy and for?

Autotrophs use carbon-containing molecules for energy and to build organic compounds through photosynthesis. Heterotrophs obtain these carbon-containing molecules by consuming other organisms or their organic matter for energy and to support their own growth and metabolism.


How do heterotrophs and heterotrophs. differ?

Autotrophs make their own food through photosynthesis. Heterotrophs obtain nourishment by eating other organisms.


How do heterotrophs and autotrophs differ in the way they obtain energy?

Heterotrophs obtain energy by consuming other organisms, while autotrophs make their own energy through processes like photosynthesis or chemosynthesis. Essentially, heterotrophs rely on external sources for energy, while autotrophs are self-sufficient in energy production.


What is the biochemical circle of life that exists between phototrophs and heterotrophs?

Phototrophs, such as plants and algae, use sunlight to convert carbon dioxide and water into glucose through photosynthesis. Heterotrophs, including animals and fungi, consume organic matter produced by phototrophs to obtain energy. When heterotrophs respire, they release carbon dioxide back into the environment, which can be taken up by phototrophs to fuel photosynthesis, closing the cycle.


Are fungi autotrphs?

No, fungi are not autotrophs. They are heterotrophs, meaning they obtain their nutrients by absorbing organic matter from their environment.


Organisms that obtain energy by taking in food are called?

heterotrophs


Heterotrophs obtain the chemical energy used in metabolism from autotrophs or from other heterotrophs?

Heterotrophs are organisms that cannot produce their own food and must obtain their energy by consuming other organisms. They obtain chemical energy from the organic matter in autotrophs or other heterotrophs through processes such as ingestion and digestion. This energy is then used in their metabolic processes to fuel essential functions and activities.