Through Photosynthesis.
Yes, both amoeba and euglena are single-celled organisms that can survive independently without each other. They obtain their nutrients and energy from their surroundings, so they do not require a symbiotic relationship to survive.
Euglena is a protozoan that is capable of conducting photosynthesis. It contains chlorophyll pigments that enable it to produce energy from sunlight.
Euglena primarily feeds through photosynthesis, using chloroplasts to convert sunlight into energy, but it can also absorb nutrients from its environment when light is unavailable. Amoeba, on the other hand, is a heterotrophic organism that primarily consumes smaller organisms, such as bacteria and other protozoa, by engulfing them through a process called phagocytosis. Both organisms exhibit flexibility in their feeding strategies according to their environmental conditions.
Paramecium are consumers because it uses it's cilia to sweep it's food into where it digests food.
Euglena is a single-celled organism that performs both photosynthesis and respiration. During respiration, Euglena takes in oxygen and releases carbon dioxide, producing energy in the form of ATP. The process of respiration in Euglena occurs in the mitochondria, where glucose is broken down to release energy for the organism's metabolic activities.
Yes, both amoeba and euglena are single-celled organisms that can survive independently without each other. They obtain their nutrients and energy from their surroundings, so they do not require a symbiotic relationship to survive.
Euglena is a protozoan that is capable of conducting photosynthesis. It contains chlorophyll pigments that enable it to produce energy from sunlight.
Euglena primarily feeds through photosynthesis, using chloroplasts to convert sunlight into energy, but it can also absorb nutrients from its environment when light is unavailable. Amoeba, on the other hand, is a heterotrophic organism that primarily consumes smaller organisms, such as bacteria and other protozoa, by engulfing them through a process called phagocytosis. Both organisms exhibit flexibility in their feeding strategies according to their environmental conditions.
Paramecium are consumers because it uses it's cilia to sweep it's food into where it digests food.
Euglena is a single-celled organism that performs both photosynthesis and respiration. During respiration, Euglena takes in oxygen and releases carbon dioxide, producing energy in the form of ATP. The process of respiration in Euglena occurs in the mitochondria, where glucose is broken down to release energy for the organism's metabolic activities.
A paramecium obtains energy through the process of phagocytosis, where it engulfs and digests prey such as bacteria. This process allows the paramecium to extract nutrients and energy for its survival.
Euglena store energy in the form of paramylon, which is a type of carbohydrate stored in granules inside the cell. Paramylon acts as a reserve energy source for euglena when photosynthesis and other energy sources are limited.
Euglena is a protist that can exhibit both autotrophic and heterotrophic characteristics. It has chloroplasts like autotrophic organisms for photosynthesis, but can also feed on organic matter for energy like heterotrophs.
Euglena is primarily aerobic, meaning it obtains energy through aerobic respiration in the presence of oxygen. However, euglena can also switch to anaerobic respiration in the absence of oxygen to generate energy.
It swims around and fly's in the ocean with it's family till it is grown up
how do euglena obtain energy
Yes, parameciums are like plants because their food vacoules of a parameciumact like chloroplasts to use certain elements and convert them into energy for the organism.Parameciumare alsorelated to bacteria and amoeba. They all are minescule (very small).