any member of the invertebrate order Hydroida (class Hydrozoa, phylum Cnidaria). Hydroids have three basic life-cycle stages: (1) a tiny free-swimming planula larva about 1 mm (0.04 inch) long, which settles and grows into (2) a sessile (attached), usually colonial hydroid stage, which in turn liberates (3) medusae. This cycle is exemplified by the genus Obelia , whose members are widely distributed throughout the world. Many hydroids have, through evolution, suppressed the medusa by retaining it on the sessile hydroid colony. Colonies of hydroids are typically 5 to 500 mm (0.2 to 20 inches) or more high and are branched; the branches bear the individuals, or zooids (hydroid polyps). Each zooid consists of a tubular body that has two layers separated by a thin, jellylike mesoglea (layer of connective tissue), a terminal mouth, and surrounding circlet(s) of tentacles. The zooids are joined basally to a common living tube called the stolon that runs the length of the colony. The living tube, which is assumed to permit the exchange of food between individuals, is protected within a tough, chitinous sheath, the perisarc. Colonies of hydroids grow vegetatively by increase in the number of hydranths, but sexual reproduction also occurs. Reproductive polyps (gonozooids) occur intermittently on the colony. They release either planula larvae or medusae, depending on the species. Some species can retract their polyps within a protective extension of the perisarc, the hydrotheca, but others lack such a structure. Most hydroids inhabit marine environments, but some have invaded freshwater habitats. An example is the Hydra, which is further unusual in being solitary. There are about 2,000 species of hydroids.-Britannica
Brinckmannia hexactinellidophila, n. gen., n. sp.: a hydroid living in tissues of glass sponges of the reefs, fjords, and seamounts of Pacific Canada and Alaska.
Apr 01, 2006; Abstract: This paper reports on an intimate association of a cnidarian with glass sponges. Hexactinellid sponges of the genus...