Euglena. Smh I am 13 and I know this
Yes, many protists are motile. They may move using structures like flagella, cilia, or pseudopods. Motility is an important characteristic that allows protists to find food, escape predators, and navigate their environment.
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.
Protists are the miscellaneous group out of the six kingdom, so as long as they are eukaryotic they are protist. They can be heterotrophs or autotrophs, they can be multicellular or single-celled
Most protist heterotrophs feed on bacteria, algae, other protists, and organic matter in their environment. They use various mechanisms such as phagocytosis, osmotrophy, or absorption to obtain nutrients.
The three subkingdoms of Protista are Algae, Protozoa, and Fungus-like protists. Algae are photosynthetic organisms, while protozoa are single-celled heterotrophs. Fungus-like protists are similar to fungi in their feeding habits but are classified as protists due to genetic differences.
Yes, many protists are motile. They may move using structures like flagella, cilia, or pseudopods. Motility is an important characteristic that allows protists to find food, escape predators, and navigate their environment.
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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.
No they are not autotrophs. They are heterotrophic organisms
Protists are the miscellaneous group out of the six kingdom, so as long as they are eukaryotic they are protist. They can be heterotrophs or autotrophs, they can be multicellular or single-celled
No, I believe not. There are protists that are producers (autotrophs). This branch of protists are called Algae. However, the branch that you are talking about is Protozoans, and they are heterotrophic, so they need to take food in from the environment. So no, heterotrophs are not producers, so animal-like protists are not producers.
Euglena's are both heterotrophic and autotrophic because they can make their own food with photosynthese and also absorb food from their environment.
Autotrophs (plants, grasses and other green things) don't make enough energy using sun light to move. They do grow upwards towards the sun and the roots grow down into the soil but that is growing not moving like walking or running.
Most protist heterotrophs feed on bacteria, algae, other protists, and organic matter in their environment. They use various mechanisms such as phagocytosis, osmotrophy, or absorption to obtain nutrients.
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This is not actually the case. There are a large number of living things called autotrophs, meaning that they produce their own food and are therefore not dependent on other living creatures to produce their own food. Plants, some varieties of protist (like seaweed), and cyanobacteria are all autotrophs that use photosynthesis. There are also bacteria that perform chemosynthesis, meaning that they use inorganic matter like hydrogen sulfide to make food for themselves and do not require other lifeforms. They are also considered autotrophs. However, all animals and fungi are heterotrophs because their bodies cannot use the energy from the sun or from chemicals to perform carbon-fixing (the processes that autotrophs use to make food like photosynthesis or chemosynthesis). As a result, heterotrophs must consume organic material with "fixed carbon" to meet their energy requirements. This means that all heterotrophs minimally require an autotroph to feed them. Given the diversity of animals and fungi, there is a greater corresponding diversity of autotrophs to match the demand for resources.
Protist heterotrophs obtain food by capturing and ingesting prey, absorbing nutrients directly from their environment through their cell membranes, or forming symbiotic relationships with other organisms to obtain nutrients.