1. They can make their own food.
2. They usually obtain energy through the synthesis of substances, like plants get energy from photosynthesis.
3. They support the whole earth's ecological system. They are at the bottom of the food chain.
There are millions of factual sentences you could say about an autotroph. The simplest being "An autotroph produces its own energy."
They use the energy harvested by heteotrophs.
the sun because well it gives them energy
They can be, Photoautorophs, Photoheterotrophs, Chemoautotrophs or Chemoheterotrophs
No, not all algae are autotrophs. There are some that are autotrophs whereas there are others that are heterotrophs. Autotrophs refers to the members of the animal kingdom that make their own food.
African Violets are plants and make their own food, so they are autotrophs.
Yes. Cyanobacteria is the other type of photosynthetic autotrophs
Autotrophs because they make their food by their own
Autotrophs are organisms that can produce its own food.
Autotrophs
By consuming autotrophs.
Autotrophs
Some autotrophs/producers are: Wheat Fungi Algae Cacti Trees Shrubs They are made autotrophs because they can produce their own food.
Autotrophs depend on heterotrophs for minerals
autotrophs
Chemosythetic autotrophs use chemicals for "food", but photosynthetic autotrophs use light (sunlight) to make their "food".
Heterotrophs respond to their surroundings, while autotrophs do not., , , , Heterotrophs respond to their surroundings, while autotrophs do not.,Heterotrophs grow in multiple places, while autotrophs do not., , , , Heterotrophs grow in multiple places, while autotrophs do not.,Heterotrophs get nutrition by eating, while autotrophs make their own food., , , , Heterotrophs get nutrition by eating, while autotrophs make their own food.,
im pretty sure it is autotrophs
Organisms that derive their chemical energy from the process of chemosynthesis include certain bacteria, archaea, and some specialized extremophiles. These organisms use inorganic compounds such as hydrogen sulfide, methane, or ammonia to produce energy through chemical reactions instead of relying on sunlight for photosynthesis.