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In the division Chlorophyta (green protists), Volvox is a colonial form made up of 500 to 60,000 biflagellated cells embedded in a gelatinous wall. The largest colonies exceed one millimeter in diameter and are easily visible to the naked eye.
View a medium magnification image of a volvox.
View a high magnification image of a volvox.
Assuming a semi-transparent hollow spherical shape, the colonies (coenobia) are about the size of a pinhead. To some systematists, this colonial organism has a somewhat dual nature, placed by zoologists into the order Volvocida and classified by botanists as green algae, Chlorophyta. Globally, twenty species of Volvox are known to exist with most species occurring in tropical and subtropical areas.
Volvox colonies are either sexual or asexual. In addition to biflagellated somatic cells, asexual colonies have specialized reproductive cells (gonidia) that produce small daughter (and sometimes granddaughter) colonies within the parent colony. Before release, the daughter colonies undergo inversion, turning inside out and then form flagella. In contrast, sexual colonies feature the replacement of the gonidia by eggs or spermatozoa. After the eggs are fertilized, zygotes encyst and are released after death of the parent colony. Thick-walled zygotes formed late in the summer often serve as winter resting stages, emerging the following spring to form new spherical colonies. From the point of view of geneticists, the somatic cells are seen as mortal while the germ cells as immortal.
Although it is comprised of individual protists, Volvox colonies can locomote through freshwater habitats, as they spin smoothly with all the flagella beating in unison. Blooms of the chlorophyte occur in "enriched" water bodies or those that are polluted with excess levels of dissolved nitrates and phosphates, and act as an indicator organism. As primary producers, Volvox colonies produce dissolved oxygen, and as major dietary staples for many aquatic organisms, help support the aquatic food pyramid. Many types of rotifers thrive by grazing on this green colonial alga as do other members of the freshwater zooplankton community.
Cynthia D. Kelly, Thomas J. Fellers and Michael W. Davidson - National High Magnetic Field Laboratory, 1800 East Paul Dirac Dr., The Florida State University, Tallahassee, Florida, 32310.
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