|Blue Button, Porpita porpita|
Chondrophora Totton, 1954
The chondrophores or porpitids are a small and very unusual group of hydrozoans today classified as family Porpitidae. Though it derives from an outdated name for this lineage (see below), some still find the term "chondrophore" useful as a synonym to "porpitid" in discussions of the three genera contained therein.
They all live at the surface of the open ocean, and are colonies of carnivorous, free-floating hydroids whose role in the plankton community is similar to that of pelagic jellyfish. The chondrophores look like a single organism but are actually colonial animals, made up of orderly cooperatives of polyps living under specialized sail-structures.
The tiny individual animals are specialized to perform specific tasks; some form the central gas-filled disc (which is a golden brown colour and hardened by chitinous material) essential to keeping the colony afloat; others form radiating tentacles for tasks such as catching prey, reproduction, and digestion. Microplankton is a chondrophore's principal prey. Although none have powerful stings, contact with the skin may cause irritation. At the mercy of winds and currents, chondrophores are pelagic and drift in the open ocean. They are often seen in large aggregations; mass beachings are not unusual. Chondrophores multiply by releasing tiny (0.3-2.5 millimetres or 0.01-0.09 inches) medusae which go on to develop new colonies.
Velella differs from Porpita by their transparent, membranous sail-shaped floats; filled with gas, the membranes have a texture reminiscent of cellophane. Both genera have turquoise to dark blue mantles and tentacles, with lemon-yellow morphs occasionally encountered. Neither group is particularly large: the floats of Velella are usually under 7.6 centimetres (3 inches) in diameter, while those of Porpita are usually less than 3.8 centimetres (1.5 inches). Very little is known about Porpema, as there have been no confirmed sightings since the discovery of the genus. Its existence is questionable.
The order Chondrophora was created by A.K. Totton in 1954 to accommodate these three unusual genera of Hydrozoa as their taxonomic affinities were unclear. They had previously been placed either in the Anthomedusae (also known as Athecata) or the Siphonophora, and though many accepted Totton's placement, a considerable number of authors maintained them in the Anthomedusae/Athecata all the time.
By the 1970s/1980s, nearly all Hydrozoan systematists were in agreement that these genera did indeed belong in that group and the order Chondrophora became defunct, replaced by the family Porpitidae, which took priority over the less-old name Velellidae (the group was subdivided into these two families when still ranked as an order). In modern classifications, the Porpitidae are included in the infraorder Zancleida of the hydrozoan suborder Capitata.
They are believed to have originated in the late Proterozoic period, some 650-540 million years ago. A rare soft-bodied fossil that was recovered from the Farmers Member of the Borden Formation (Mississippian age) in northeastern Kentucky was interpreted as a chondrophorine float  and potential porpitids were described from the Carrara Formation (lower Cambrian) of California 
- Totton (1954)
- Brinckmann-Voss (1970)
- Schuchert (2008)
- Ellis L. Yochelson and Charles E. Mason. 1986. A Chondrophorine Coelenterate from the Borden Formation (Lower Mississippian) of Kentucky, Journal of Paleontology, Vol. 60, No. 5 (Sep., 1986), pp. 1025-1028 
- Bruce S. Lieberman et al. 2017. Disc-shaped fossils resembling porpitids or eldonids from the early Cambrian (Series 2: Stage 4) of western U.S.A., PeerJ, 
- Brinckmann-Voss, A. (1970): Anthomedusae/Athecatae (Hydrozoa, Cnidaria) of the Mediterranean. Part I. Capitata. Fauna e Flora del Golfo di Napoli 39: 1-96, 11 plates.
- Schuchert, Peter (2008): The Hydrozoa Directory - Subclass Capitata Kühn, 1913. Retrieved 2008-JUL-08.
- Totton, A.K. (1954): Siphonophora of the Indian Ocean together with systematic and biological notes on related specimens from other oceans. Discovery Reports 27: 1-162.