Journal Article
Functional hermaphroditism in teleosts
Sadovy de Mitcheson, Y. and Liu, M.
Record Number:
5293
Year:
2008
Journal:
Fish and Fisheries
Pages:
1-43
Volume:
9
Abstract:
Teleost fishes are characterized by a diversity of sexual patterns. Hermaphroditism,
the expression of both male and female reproductive function in a single individual,
generates the most curiosity and controversy. Yet diagnosis of this form of sexuality
continues to challenge workers, in particular the distinction between functional and
non-functional hermaphroditism. This distinction, reflected as it is in the relationships
between gonad form and function, is important if we wish to improve our
understanding of the origin of hermaphroditism in the teleosts and of its highly
sporadic expression today. Although structure can indicate phylogenetic affinities, it
does not always reflect reproductive function, and function is important for
understanding adaptation. With resurgent interest in hermaphroditism comes the
recognition that understanding sexual pattern is not only important for better
knowledge of reproductive biology and ecology but may also elucidate phylogenetic
relationships. On the basis of a conservative and clearly defined set of diagnostic
criteria, which incorporate new accounts of hermaphroditic species, and by applying
an improved understanding of gonadal ontogeny, a comprehensive review and
careful re-examination of all primary literature was conducted. This overview
documents the incidence of hermaphroditism in teleosts and explores its phylogenetic
distribution, possible origin and range of expression. The review confirms functional
hermaphroditism in 27 teleost families in seven orders, predominantly among
tropical, marine perciforms in which its diversity of expression is greatest. In families
with functional hermaphrodites, the sexual pattern is widespread and often highly
variable in expression, even within a single genus or between populations. Based on
our understanding of gonadal ontogeny in teleosts and on known phylogenetic
interrelationships, the origin of functional hermaphroditism is most parsimoniously
explained by a proto-hermaphroditic condition in teleosts and cyclostomes, constituting
a hermaphroditic potential for these groups. Exploitation and expression of this
potential appear to be a response to a suite of environmental and biological factors,
opportunities and constraints that result in the independent appearance of the
hermaphroditic option in many different fish lineages.
Keywords adaptive significance, gonadal morphology, gonadal ontogeny,
phylogeny, sex change, sexual pattern
Times Cited:
1
Relevent Species:
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