Mixotroph is a term that most accurately describes the nutritional mode of healthy Paramecium Bursaria.
nothng
The relationship of starving p bursaria to the algea zoochlorellae is a predatory relationship.
Paramecium bursaria Toxoplasma gondii Crenarchaeota Korarchaeota Testate amoebae Escherichia coli Jonquetella Thermus aquaticus Leptomyxida
Mutuallistic describes the relationship between a well fed P.bursaria and zoochlorellae.
asexualy
nothng
no
what do you mean
One of the most interesting known symbiotic relationships is that of Paramecium aurelia and its bacterial endosymbionts. See also the Chlorella symbiosis with Paramecium bursaria.
The relationship of starving p bursaria to the algea zoochlorellae is a predatory relationship.
Paramecia move by means of cilia, tiny whisker-like "legs." For their size, they're pretty fast.
Paramecium bursaria Toxoplasma gondii Crenarchaeota Korarchaeota Testate amoebae Escherichia coli Jonquetella Thermus aquaticus Leptomyxida
Heh, I'm no expert, but here's what I believe (from my half baked bio knowledge) to be the answer:Kingdom: ProtistaPhylum: CiliophoraClass: CiliateaOrder: PeniculidaFamily: ParameciidaeGenus: Paramecium (duhhh)Species: That would depend on which species of paramecium we're looking at. Aurelia is one, Bursaria is another.
Plants and algae cells have chloroplasts, photosynthesis is conducted in chloroplasts. Paramecium do not photosynthesize they get their food from the water they live in. So they do not need chloroplasts.
Mutuallistic describes the relationship between a well fed P.bursaria and zoochlorellae.
Bursaria spinosa was created in 1797.
asexualy