Stevardiids are small, less than 13 centimetres (5 in). Most are between about 5–6 cm
SL (about 2 in), but some species can be even smaller, between . The reproductive adaptations of stevardiids is what sets this group apart from the other Characins. Males have a
caudal organ associated with
gland tissues.
Synapomorphies of this subfamily include
insemination, a posterior
sperm storage area in the
testes, and an elongate sperm
nucleus. All males have some form of modified caudal gland used to release
pheromones as part of
courtship. The structure of this gland depends on the specific tribe; the organ may consist of modified caudal
fin rays; modified caudal fin
scales, a derived
hypural fan, or modified caudal fin
musculature, or combinations of the above. Hooks on the
anal fin of males may play a role, although these are also found in characins that exhibit
external fertilization. However, the exact time of fertilization is unknown and no fertilized eggs are found internally; this suggests fertilization occurs when the eggs are being laid or even outside of the body. Due to insemination, the
sperm of stevardiids has adapted. In many species, an elongate cytoplasmic collar binds the
flagellum to the elongate nucleus at some stage of spermiogenesis. In almost all species, the sperm cell bodies are elongate. The genus
Planaltina expresses only round sperm (like that of externally fertilizing characins) and the genera
Diapoma and
Acrobrycon only express slightly elongated sperm; this may indicate a possible
plesiomorphy. Some sperm have enlarged regions containing
mitochondria, which may help in prolonging the life of the sperm while stored in the ovary. In some genera, sperm clumping and patterns of arrangement are observed in the sperm ducts and storage regions. In the subfamilies Xenurobryconinae and Glandulocaudinae, there is a form of sperm packaging which would allow for a higher sperm density during transfer from the male to the female. These packets are called
spermatozeugmata, and the sperm are packaged
parallel to each other; this packaging is further increased by the elongation of the sperm cells. In Xenurobryconinae, each spermatozeugma is produced and is released fully formed in the spermatocysts, but in Glandulocaudinae, the sperm is released from the spermatocysts and packaged elsewhere. The spermatozeugmata are situated in the posterior end of the testes, which serves as a storage area for sperm. Many of the genera also have a gland situated in the
gill cavity called a "gill gland", a
secondary sex characteristic found in
sexually mature male stevardiids that is apparently suited to release chemical signals. No genus contains species that have glands and other species without glands. This gill gland is derived from anterior gill filaments of the first
gill arch. Gland size and degree of gill modification varies with species. Though the true function of the gill glands has yet to be determined, they are probably used to release chemical signals into the gill current. There are many examples of
sexual dimorphism (differences in appearance between the genders). In
Corynopoma riisei, the males have extended finnage (giving it the common name "swordtailed characin") as well as paddle-like extensions of the
operculum. Many other species also have other secondary sex characteristics believed to be involved in courtship. Many of these characteristics are also shared with the tribe Compsurini in
Cheirodontinae. Though unrelated, this group contains inseminating species with caudal organs. However, the caudal organs and other similar characteristics are structured differently. They also share the elongate cytoplasmic collar binding the flagellum to the elongate nucleus at some stage of spermiogenesis, which was previously assumed to be exclusive to stevardiids. These fish also occasionally have gill glands. == Courtship ==