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Nitrates and Phosphates.

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How are autotrophs and heterotrophs similar?

Autotrophs and heterotrophs both require energy to survive. They both play a role in the food chain by transferring energy from one organism to another. Additionally, they are both part of the ecosystem and contribute to maintaining the balance of nutrients and energy flow.


How are heterotrophs and autotrophs similar in their dependence on external sources for energy and nutrients?

Heterotrophs and autotrophs both rely on external sources for energy and nutrients. Heterotrophs obtain these from consuming other organisms, while autotrophs produce their own energy through processes like photosynthesis. Both types of organisms need external sources to survive and function.


What do autotrophs and heterotrophs have in common?

Autotrophs and heterotrophs both obtain energy to survive. Autotrophs produce their own food through photosynthesis or chemosynthesis, while heterotrophs rely on consuming other organisms for nutrients. Both play essential roles in ecosystem dynamics.


The way autotrophs produce food?

Autotrophs produce food by photosyntesis. Photosyntesis is when a plant uses water and the suns energy to produce sugar and energy. This is how they survive, other organisms- heterotroughs eat the autotrophs to gain energy which the autotroughs produce.


What is an organism called that manufactures its own food?

Organisms that synthesize their own organic compounds from inorganic ones are called autotrophs.The phenomenon is autotrophy; green plants and some other organisms perform it by photosynthesis, while some prokaryotes perform chemosynthesis, synthesizing organic substances using energy not from light but from inorganic chemical reactions.When discussing ecosystems, autotrophs are called producers.

Related Questions

How are autotrophs and heterotrophs similar?

Autotrophs and heterotrophs both require energy to survive. They both play a role in the food chain by transferring energy from one organism to another. Additionally, they are both part of the ecosystem and contribute to maintaining the balance of nutrients and energy flow.


How are heterotrophs and autotrophs similar in their dependence on external sources for energy and nutrients?

Heterotrophs and autotrophs both rely on external sources for energy and nutrients. Heterotrophs obtain these from consuming other organisms, while autotrophs produce their own energy through processes like photosynthesis. Both types of organisms need external sources to survive and function.


Why Heterotrophs are dependent on autotrophs.?

Heterotrophs are dependent on autotrophs for a variety of reasons. The most obvious reason is that autotrophs are the only organisms that can produce organic molecules from inorganic molecules. This means that heterotrophs must consume autotrophs (or the organic molecules they produce) in order to obtain the organic molecules they need to survive. In addition to this, autotrophs play a vital role in the global carbon and water cycles. They take in carbon dioxide from the atmosphere and use it to produce organic molecules. This helps to remove carbon dioxide from the atmosphere, which would otherwise contribute to global warming. Autotrophs also release water vapor into the atmosphere through the process of transpiration. This helps to regulate the Earth's temperature and keep it habitable for other organisms. Without autotrophs, the world would be a very different place. Heterotrophs would not be able to survive, and the planet would be uninhabitable for most other organisms.


An autotroph is an organism that?

An autotroph is an organism that only needs inorganic nutrients and sunlight to survive. (eg. plants)


What do autotrophs and heterotrophs have in common?

Autotrophs and heterotrophs both obtain energy to survive. Autotrophs produce their own food through photosynthesis or chemosynthesis, while heterotrophs rely on consuming other organisms for nutrients. Both play essential roles in ecosystem dynamics.


Can produce their own energy?

Heterotrophs cannot produce their own food, if that is what you mean by energy. For example, humans are heterotrophs. Autotrophs, however, can produce their own food (like plants, algae, etc). Both heterotrophs and autotrophs need energy to survive, they just use it in different ways.


The way autotrophs produce food?

Autotrophs produce food by photosyntesis. Photosyntesis is when a plant uses water and the suns energy to produce sugar and energy. This is how they survive, other organisms- heterotroughs eat the autotrophs to gain energy which the autotroughs produce.


Can heterotrophs produce their own energy?

Heterotrophs cannot produce their own food, if that is what you mean by energy. For example, humans are heterotrophs. Autotrophs, however, can produce their own food (like plants, algae, etc). Both heterotrophs and autotrophs need energy to survive, they just use it in different ways.


What is an organism called that manufactures its own food?

Organisms that synthesize their own organic compounds from inorganic ones are called autotrophs.The phenomenon is autotrophy; green plants and some other organisms perform it by photosynthesis, while some prokaryotes perform chemosynthesis, synthesizing organic substances using energy not from light but from inorganic chemical reactions.When discussing ecosystems, autotrophs are called producers.


Is a whale a heterotroph?

Yes, sharks are heterotrophs because they eat other organisms to survive. All animals are heterotrophs (along with fungi and many bacteria). Heterotrophic simply means that these organisms do not produce their own food, but need to consume organic carbons, which come from "autotrophs" - plants, algae, and those bacteria who can create their own food from inorganic elements and the energy from light or from inorganic chemical reactions.


Paramecia are heterotrophs explain this statement?

Paramecia are heterotrophs because they obtain their nutrition by ingesting organic matter or other organisms. They do not have the ability to produce their own food through photosynthesis like autotrophs. Instead, they rely on consuming other organisms for energy and nutrients to survive.


Which characteristic does dodder share with all other heterotrophs?

Dodder, like all other heterotrophs, relies on obtaining organic nutrients from other organisms in order to survive. This distinguishes them from autotrophs, which can produce their own food through photosynthesis or chemosynthesis.