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Publication
Ontogeny of swimming behaviour of two temperate clingfishes, Lepadogaster lepadogaster and L. purpurea (Gobiesocidae)
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Advisor(s)
Abstract(s)
Gobiesocids are typically reef-dwelling species whose larvae have been found in several
nearshore rocky environments; this suggests a possible retention pattern for these species.
Retention may occur due to the physical features of an area and/or active larval behaviour, such as
swimming abilities. In the laboratory, we measured the ontogeny of swimming behaviour (routine
speed and critical speed, Ucrit) of 2 clingfish species, Lepadogaster lepadogaster and L. purpurea. L.
lepadogaster larvae swam better than L. purpurea larvae, but this difference might be related to differences
in water temperature, since the former is a spring spawner, whereas the latter spawns during
winter. It is well known that water viscosity increases with decreasing temperature, making
swimming more difficult. Routine and critical swimming speeds of larvae of both species increased
with ontogeny (size) despite high variability at any ontogenetic state. Ucrit ranged from 1 to 9.4 and
1.2 to 6.5 cm s–1 in L. lepadogaster and L. purpurea, respectively. Routine speeds were ~18 to 19% of
the maximum Ucrit registered for both species. Interestingly, swimming speed started to decrease as
settlement size (10 to 11 mm total length) was approached, concurrent with the development of a
ventral sucking disk that allows individuals to attach to the bottom of the swimming chamber and
counteract strong currents. This shift in swimming behaviour that is associated with settlement is
probably an adaptation to the cryptobenthic mode of life of these fish.
Description
Keywords
Gobiesocidae Swimming performance Ontogeny Retention Behaviour
Citation
Marine Ecology Progress Series, 414, 237-248