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Publication
Reproductive trade-offs in a temperate reef fish under high pCO2 levels
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Advisor(s)
Abstract(s)
Fishes are currently facing novel types of anthropogenic stressors that have never experienced in their evolutionary
history, such as ocean acidification. Under these stressful conditions, energetically costly processes, such
as reproduction, may be sacrificed for increased chances of survival. This trade-off does not only affect the
organism itself but may result in reduced offspring fitness. In the present study, the effects of exposure to high
pCO2 levels were tested on the reproductive performance of a temperate species, the two-spotted goby,
Gobiusculus flavescens. Breeding pairs were kept under control (∼600 μatm, pH∼ 8.05) and high pCO2 levels
(∼2300 μatm, pH∼ 7.60) conditions for a 4-month period. Additionally, oxidative stress and energy metabolism-
related biomarkers were measured. Results suggest that reproductive activity is stimulated under high pCO2
levels. Parental pairs in the simulated ocean acidification conditions exhibited increased reproductive output,
with 50% more clutches and 44% more eggs per clutch than pairs under control conditions. However, there was
an apparent trade-off between offspring number and size, as larvae of parental pairs under high pCO2 levels
hatched significantly smaller, suggesting differences in parental provisioning, which could be related to the fact
that these females produce more eggs. Moreover, results support the hypothesis of different energy allocation
strategies used by females under high pCO2 conditions. These changes might, ultimately, affect individual fitness and population replenishment.
Description
Keywords
Biomarker Energy metabolism Fish Gobiusculus flavescens Ocean acidification Reproductive success
Citation
Marine Environmental Research, 2018 Doi:10.1016/j.marenvres.2018.02.027
Publisher
Elsevier BV