Chytrids are not merely "first" because of the age of their fossils, however. Studies of the evolutionary relationships between chytrids and other fungi indicate that they are the sister group to the remaining fungal groups, or that they may be a paraphyletic basal assemblage. This means that chytrids may give us a good picture of what the ancestors of fungi were like.
Chytridiomysota are a predominantly aquatic group, consisting of about 790 species.
Identification
790 species
characteristics:
-with flagellated cells( zoospores or motile gametes) which are uniflagellate
-assimilative stage varying from simple and unicellular to a more complex mycelium composed of coenocytic hyphae
Systematics and Geographic Variation
distribution and adult habitat
Breeding and Courtship
Reproductive stategy
aquatic ecology
terrestial ecology
Secondly, chytrids have flagellated gametes -- their reproductive cells have a flagellum that allows them to swim. No other fungi have flagella, which suggests that the other fungi lost this trait at some point in their evolutionary history. This is also consistent with what we know about the closest relatives to the fungi, which also have flagellae.
Finally, like other fungi, chytrids have chitin strengthening their cell walls, and one subgroup (Hyphochytrids) have cellulose as well, a trait unique among living fungi. The presence of chitin is thus an important defining feature of the fungi.
There is considerable variation in the morphology and ecology of chytrids. Some are freshwater, some marine; some are parasites on plants and dipterans, while others live on decaying plants and insect parts. Some are unicellular, some coenocytic, and still others produce a mycelium much like other fungi. Few have any noticeable impact on humans, with the exception of a few that parasitize algae, cause potato wart (Synchytrium endoboticum), and those used in experimental research (e.g. Allomyces).
predators and defense
community ecology
other useful links...
refereces