Mixotrophic nutrition is a type of dual nutrition where in light the organisms performs photosynthesis while in dark it switches over to saprophytic nutrition, e.g., 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, e.g., Euglena.
Organisms (plants, animals, protists and fungi) containing advanced cells, each of which has a true nucleus and membrane-bounded organelles. Thus, in eukaryotic cells, the genetic material is isolated from cytoplasm by a nuclear envelope of two membranes.
Organisms (plants, animals, protists and fungi) containing advanced cells, each of which has a true nucleus and membrane-bounded organelles. Thus, in eukaryotic cells, the genetic material is isolated from cytoplasm by a nuclear envelope of two membranes.
Which one is called plant-animal?
Euglena.
Euglena.
See lessGive one example of algal protist.
Chlamydomonas.
Chlamydomonas.
See lessGive two examples of protozoan protists.
Amoeba and Paramecium
Amoeba and Paramecium
See lessWhat is mixotrophic nutrition?
Mixotrophic nutrition is a type of dual nutrition where in light the organisms performs photosynthesis while in dark it switches over to saprophytic nutrition, e.g., 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, e.g., Euglena.
See lessWhat are eukaryotes?
Organisms (plants, animals, protists and fungi) containing advanced cells, each of which has a true nucleus and membrane-bounded organelles. Thus, in eukaryotic cells, the genetic material is isolated from cytoplasm by a nuclear envelope of two membranes.
Organisms (plants, animals, protists and fungi) containing advanced cells, each of which has a true nucleus and membrane-bounded organelles. Thus, in eukaryotic cells, the genetic material is isolated from cytoplasm by a nuclear envelope of two membranes.
See less