Stentor can grow up to two millimeters in length, large enough for individuals to be seen by the naked eye. This size combined with their highly motile nature gives
Stentor a complex interconnected physiology. The surface of the cell is covered with a protective layer called the
pellicle. This layer is
secreted by the cell and can be shed and reformed if the organism is stressed.
Cilia and motility , 2 - oral pouch, 3 -
micronucleus, 4 - macronuclear nodes, 5 -
holdfast, 6 -
peristome, 7 - gullet, 8 -
food vacuole, 9 -
contractile vacuole The clear bands of the
ectoplasm are where
cilia are located. Each clear band houses a
kinety, with numerous adjacent cilia longitudinally along the organism. These somatic cilia are shorter and often more stiff than membranellar (mouth) cilia located in polykinetid bunches throughout the oral apparatus. Once
Stentor has captured its prey, it corrals the prey into the oral pouch which then partially encloses. It is roughly around this point in which the feeding
Stentor decides whether to consume the captured prey (although it is worth noting that food can still be rejected as late as the upper gullet). If the prey is rejected it will be ejected and passed down along the outside of the cell's body cilia towards the tail as to ensure it doesn't end up being accidentally consumed again. Long dead prey and non-organic material such as toxins or glass are more likely to be rejected, especially if the
Stentor is otherwise well fed. Food is then passed into the gullet, an invaginated feeding apparatus lined with cilia and
myonemes to aid in the passage of food items. The gullet's myonemes do a sort of
peristalsis with rhythmic contractions forcing larger food items into an
ectoplasmic food vacuole. Food vacuoles can also be formed inside the
cytoplasm if prey escapes/ bursts its containing
vesicle. Not all prey can be wholistically
phagocytized, especially large prey like other
Stentor. In these cases, the buccal cavity will expand to fit part of the prey (the tail end if it's eating another
Stentor) and will subsequently close, cleaving part of the prey off like taking a chunk from a piece of meat. This smaller food chunk will then be ingested as outlined above.
Cannibalism has been observed in multiple species of
Stentor, with
planktonic individuals being drawn in to the
vortex of secured and feeding individuals.
Nuclei and cell division Like other
ciliates, the
nuclei of
Stentor are split into a
macronucleus and
micronucleus. The macronucleus is highly
polyploid and any one fragment can contain many copies of the entire
transcriptionally active genome. The micronucleus is much smaller and contains information necessary for the formation of the macronucleus and is essential for the process of conjugation. Macronuclear shape is diverse in
Stentor, with many species having moniliform (bead like), variform (tube like), and condensed (resembling an enlarged single nucleus) macronuclei. Conjugation is relatively rare, with most organisms dividing
asexually by
fission. File:Mikrofoto.de-Stentor-1.jpg|
Stentor polymorphus with algal symbionts File:Mikrofoto.de-Stentor-4.jpg|
Stentor polymorphus with algal symbionts File:Dwa stentory.jpg|Stentors settled on
water milfoil leaf File:Stentor coeruleus.png|
Stentor coeruleus digesting
Blepharisma sp. ==Ecology==