Euglena performs photosynthesis inside chloroplasts.
how do euglena obtain energy
The students are planning to write labels for their diagram, explaining how each part contributes to the function of the euglena. Which label would be most appropriate for the chloroplast? Responses "This structure helps the euglena obtain minerals from its environment so that it can perform life functions." "This structure helps the euglena obtain minerals from its environment so that it can perform life functions." "This structure helps the euglena remove food wastes from the cell after their nutrition has been used for life processes." "This structure helps the euglena remove food wastes from the cell after their nutrition has been used for life processes." "This structure helps the euglena use up energy it has stored in the process of building new cell parts and growing." "This structure helps the euglena use up energy it has stored in the process of building new cell parts and growing." "This structure helps the euglena obtain energy from its environment so that it can perform life functions."
Mixotrophic nutrition is a type of dual nutrition where in light the organisms performs photosynthesis while in dark it switches over to saprophytic nutrition. Example of mixotrophic nutrition is Euglena.
Mixotrophic nutrition is a type of dual nutrition where in light the organisms performs photosynthesis while in dark it switches over to saprophytic nutrition. Example of mixotrophic nutrition is Euglena.
Euglena, as a genus of unicellular flagellate protists, have three methods of nutrition. The first is holozic, which is the ingestion of solid food. The second is saprophytic. This is the absorption of foods. The last is holophytic which uses chemical elements for foods.
mode of the nutrition of mucor
ameba, paramecium, euglena, volvox, and spirogyra. Basically anything in the protist kingdom.
Photosynthesis
the chlorophyll
They grow on another plant so that they can obtain the nutrition from that plant. They are known as parasitic plants.
Both Euglena and Amoeba are single-celled organisms that belong to the Protista kingdom. They both have flexible cell membranes and can move using pseudopods. Additionally, they both obtain nutrition through various methods, such as photosynthesis in Euglena and phagocytosis in Amoeba.
Euglena is a single-celled protist that is capable of photosynthesis, producing its own food using sunlight and carbon dioxide. However, when sunlight is limited, euglena can also act as a heterotroph and consume organic matter, such as bacteria or other small organisms, through phagocytosis. This dual mode of nutrition allows euglena to survive in various environmental conditions.