African Violets are plants and make their own food, so they are autotrophs.
Protista, with its peculiar nature, has varieties of ways to gain nutrition. Some like algae and planktons are autotrophic, while animal-like protists such as paramecium and stentor are heterotrophic. Still others are classified as being mixotrophic, which means that they are both capable of obtaining food from others and from inorganic sources.
I think you meant locust. They're heterotrophs just like all animals.
All protists are eukaryotes, some are heterotrophic, some are autotrophic, almost all can move, and almost all are single celled. No, we need traits that ALL of them share, not just some or almost all.
holozoic nutrition
Both types of bacteria exist. Some are autotrophic while others are heterotrophic. Most autotrophic bacteria can synthesize their food from substances like hydrogen sulphide. This process is called chemosynthesis and involves the use of chemical substances for the production of energy. Heterotrophic bacteria, in contrast, cannot synthesize their own energy and must consume organic matter for energy. These include decomposing bacteria, or other groups of bacteria that may be symbiotic of parasitic in nature.
some are autotrophic, some are heterotrophic some are autotrophic, some are heterotrophic some are autotrophic, some are heterotrophic some are autotrophic, some are heterotrophic
Heterotrophic.
Amoebae are heterotrophic.
it is autotrophic nutrition
Heterotrophic
euglenoids
it is heterotrophic
Archaebacteria can be autotrophic, heterotrophic, or saprophytic. Some archaebacteria are capable of synthesizing their own food through photosynthesis or chemosynthesis, while others rely on consuming organic matter or decaying material for energy.
Some Archaeabacteria are autotrophic and some are heterotrophic.
heterotrophs
Horses are heterotrophic. It has to eat grass to live.
Like all animals they are heterotrophic.