Two different kinds of nephridia occur within the Bilateria, protonephridia closed up by a termi- nal cell and metanephridia opening into the coelomic cavity. Both initially filter and subsequently modify intercellular fluids. Whereas metanephridia are strictly correlated to a coelom, proto- nephria occur in acoelomate as well as in coelomate organisms. Protonephridia of different bilaterian taxa correspond to each other in several structural fea- tures. Therefore, it is hypothesized that protonephridia are homologous organs throughout the Bilateria. They must have evolved once as one pair of monociliated organs originating from the ectoderm and consisting of one terminal, one duct and one nephropore cel!. In the ground pattern of the Bilateria the cilium of the terminal cell has only one rootlet and is surrounded by presumably eight strengthened and elongated microvilli. Cilium and microvilli extend into the hollow cylinder of the terminal cell, which is oriented distally and is attached to the adjacent duct cell by desmosomes. This cylinder is perforated by clefts and represents the supporting structure of the filtration barrier consisting of extracellular matrix. In the Annelida and Phoronida, the metanephridia at the postlarval stages are ontogenetically preceded by protonephridia in the larva, but far reaching structural and developmental differ- ences exist between the metanephridia of both. In phoronids the/rotonephridial duct of the larva is retained in the postlarva and acquires a coelothelially derive funnel, whereas in annelids the metanephridia are uniform organs originating from a solid anlage, which is a repetition of the protonephridial anlage of the larva. The differences contradict a homology of the metanephridia In Annelida and Phoronida. We therefore have to conclude that metanephridia must have evolved independently, at least two times. The comparative analysis of nephridia in the Bilateria allows the following hypothesis: Pro- tonephridia were evolved in a monophasic acoelomate organism in the stem lineage of the Bilateria. During the evolution of biphasic life cycles consisting of an acoelomate larva and a coelomate adult, the information about the differentiation of protonephridia has been preserved in the early acoelomate developmental (larval) stages. During postlarval development and the formation of a coelom the protonephridia have either been retained or moditied into meta- nephridia. According to the differences between the metanephridia of phoronids and annelids, we emphasize that there is no possibility to trace back all bilaterian taxa with a coelom to a common stem species.
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sania zulfiqar kaimkhani
protonephridia, metanephridia... Gills?
they have odd names
Excretion in clownfish takes place in a number of different organs. Waste moves through the protonephridia and into the metanephridia. Then it goes to the malphigian tubules and out the anus.
There are several other names used when referring to nephridia. Some of these include metanephridium, protonephridia, and metanephridia. It is basically an invertebrate organ that performs similar functions as the kidney.
Protonephridia are found in flatworms, such as planarians. These structures are responsible for excreting waste and regulating osmotic balance in these organisms.
flame cell
difference between as on and as at
What is the difference between Florida and California What is the difference between Florida and California
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Difference between paging and what?
The difference between a shogun and a samurai is like the difference between a king and a knight.
difference between enterprise and corporation