Sperm motility and fertilisation success in an acidified and hypoxic environment.

Bentley, M.G., Graham, H., Rastrick, S.P.S., Findlay, H.S., Widdicombe, S., Clare, A.S. and Caldwell, G.S., 2016. Sperm motility and fertilisation success in an acidified and hypoxic environment. ICES Journal of Marine Science, 73 (3), pp. 783-790.

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ICES hypoxia manuscript 4 06 15.pdf - Accepted Version

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DOI: 10.1093/icesjms/fsv171

Abstract

The distribution and function of many marine species is largely determined by the effect of abiotic drivers on their reproduction and early development, including those drivers associated with elevated CO2 and global climate change. A number of studies have therefore investigated the effects of elevated pCO2 on a range of reproductive parameters, including sperm motility and fertilisation success. To date, most of these studies have not examined the possible synergistic effects of other abiotic drivers, such as the increased frequency of hypoxic events that are also associated with climate change. The present study is therefore novel in assessing the impact that a hypoxic event could have on reproduction in a future high CO2 ocean. Specifically, this study assesses sperm motility and fertilisation success in the sea urchin Paracentrotus lividus exposed to elevated pCO2 for 6 months. Gametes extracted from these pre acclimated individuals were subjected to hypoxic conditions simulating an hypoxic event in a future high CO2 ocean. Sperm swimming speed increased under elevated pCO2 and decrease under hypoxic conditions resulting in the elevated pCO2 and hypoxic treatment being approximately equivalent to the control. There was also a combined negative effect of increased pCO2 and hypoxia on the percentage of motile sperm. There was a significant negative effect of elevated pCO2 on fertilisation success, and when combined with a simulated hypoxic event there was an even greater effect. This could potentially affect cohort recruitment and in turn reduce the density of this ecologically and economically important ecosystem engineer therefore potentially effecting biodiversity and ecosystem services.

Item Type:Article
ISSN:1054-3139
Uncontrolled Keywords:climate change fertilisation success hypoxia ocean acidification oxygen saturation sperm motility
Subjects:UNSPECIFIED
Group:Faculty of Health & Social Sciences
ID Code:22774
Deposited By: Unnamed user with email symplectic@symplectic
Deposited On:27 Oct 2015 16:53
Last Modified:17 Oct 2016 08:29

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