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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.
What else can I help you with?
Why does a mixotroph lose it plastid and stills survives?
These organisms are mixotrop. So they feed themselves by two ways. One is synthesysing the food themselves with the help of sunlight in the cell in the plastids, while the second way is absorbing directly required elements from organic and inorganic materials from outside. So the second path of nutrition is open to them in the absence of plastid. So they survive.
Which term most accurately describes the nutritional mode of healthy Paramecium bursaria?
Paramecium bursaria is a mixotroph, meaning it can photosynthesize like a plant by hosting green algae within its cells, while also feeding on organic matter like other heterotrophs. This combination allows it to derive energy from both sources, enhancing its nutritional versatility.
Why is euglena known as mixotroph?
Euglena is known as a mixotroph because it has the ability to obtain energy through both photosynthesis and heterotrophy. It contains chloroplasts that allow it to photosynthesize like plants when sunlight is available, using light energy to convert carbon dioxide and water into glucose. Additionally, Euglena can consume organic matter from its environment when light is scarce, enabling it to thrive in diverse conditions. This dual capability allows Euglena to adapt to varying nutrient availability and light conditions.
What is euglena's food?
All euglena have chloroplasts and can make their own food by photosynthesis. They are not completely autotrophic though, euglena can also absorb food from their environment; euglena usually live in quiet ponds or puddles.
Why does a mixotroph lose it plastid and stills survives?
These organisms are mixotrop. So they feed themselves by two ways. One is synthesysing the food themselves with the help of sunlight in the cell in the plastids, while the second way is absorbing directly required elements from organic and inorganic materials from outside. So the second path of nutrition is open to them in the absence of plastid. So they survive.
Which term most accurately describes the nutritional mode of healthy Paramecium bursaria?
Paramecium bursaria is a mixotroph, meaning it can photosynthesize like a plant by hosting green algae within its cells, while also feeding on organic matter like other heterotrophs. This combination allows it to derive energy from both sources, enhancing its nutritional versatility.
Why is euglena known as mixotroph?
Euglena is known as a mixotroph because it has the ability to obtain energy through both photosynthesis and heterotrophy. It contains chloroplasts that allow it to photosynthesize like plants when sunlight is available, using light energy to convert carbon dioxide and water into glucose. Additionally, Euglena can consume organic matter from its environment when light is scarce, enabling it to thrive in diverse conditions. This dual capability allows Euglena to adapt to varying nutrient availability and light conditions.
What do you call an organism that is both autotroph and heterotroph?
An organism that is both autotroph and heterotroph is called a mixotroph. Mixotrophs have the ability to obtain energy through both photosynthesis (as an autotroph) and by consuming organic matter (as a heterotroph).
What is euglena's food?
All euglena have chloroplasts and can make their own food by photosynthesis. They are not completely autotrophic though, euglena can also absorb food from their environment; euglena usually live in quiet ponds or puddles.
What is the method of nutrition for protista?
Protists are single-celled organisms and can feed in a number of ways, depending on what type they are. They can either be Photoautotroph (capable of synthesising its own food through photosynthesis), Heterotroph (obtains energy from organic substances produced by other organisms), or Mixotroph (uses a mix of sources of energy).The ways they can feed are via:Phagocytosis- The cell engulfs a particle by wrapping a psuedopodia around it and packaging it within a membrane enclosed sac (vesicle). The enclosed particle is digested after the vacuole fuses with a lysosome (containing digestive enzymes). This is how an amoebe feeds.Pinocytosis- Droplets of extra-cellular fluid that contain dissolved molecules are enclosed in tiny vesicles and transported into the cell. Pinocytosis is non-specific, meaning that this process doesn't care what molecules it picks up.Receptor-Mediated Endocytosis- Proteins embedded in the membrane with specific receptor sites (will only accept a certain molecule) are exposed to the extracellular fluid. These receptors are usually clustered together at certain points on the membrane called coated pits. The matching specific molecules (ligands) bind to these receptors. When the ligands bind, a vesicle forms around them and they are transported into the cell.Hopefully I made it understandable. You might have to look up some more definitions and processes to get it, but its so simple once you look at a diagram. :)
