Sex in murky waters: algal-induced turbidity increases sexual selection in pipefish
Journal article, Peer reviewed
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Date
2017Metadata
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Original version
10.1007/s00265-017-2310-8Abstract
Algal-induced turbidity has been shown to alter several important
aspects of reproduction and sexual selection.
However, while turbidity has been shown to negatively affect
reproduction and sexually selected traits in some species, it
may instead enhance reproductive success in others, implying
that the impact of eutrophication is far more complex than
originally believed. In this study, we aimed to provide more
insight into these inconsistent findings. We used molecular
tools to investigate the impact of algal turbidity on reproductive
success and sexual selection on males in controlled laboratory
experiments, allowing mate choice, mating competition,
and mate encounter rates to affect reproduction. As study
species, we used the broad-nosed pipefish, Syngnathus typhle,
a species practicing male pregnancy and where we have previously
shown that male mate choice is impaired by turbidity.
Here, turbidity instead enhanced sexual selection on male size
and mating success as well as reproductive success. Effects
from mating competition and mate encounter rates may thus
override effects from mate choice based on visual cues, producing
an overall stronger sexual selection in turbid waters.
Hence, seemingly inconsistent effects of turbidity on sexual
selection may depend on which mechanisms of sexual selection
that have been under study.
Significance statement
Algal blooms are becoming increasingly more common due to
eutrophication of freshwater and marine environments. The
high density of algae lowers water transparency and reduces
the possibility for fish and other aquatic animals to perform
behaviors dependent on vision. We have previously shown
that pipefish are unable to select the best partner in mate
choice trials when water transparency was reduced.
However, fish might use other senses than vision to compensate
for the reduction in water transparency. In this study, we
found that when fish were allowed to freely interact, thereby
allowing competition between partners and direct contact between
the fish, the best partner was indeed chosen. Hence, the
negative effects of reduced water visibility due to algal blooms
may be counteracted by the use of other senses in fish.