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Data from: Ocean acidification during pre-fertilization chemical communication affects sperm success

Cite this dataset

Lymbery, Rowan; Kennington, Jason; Cornwall, Christopher; Evans, Jonathan (2019). Data from: Ocean acidification during pre-fertilization chemical communication affects sperm success [Dataset]. Dryad.


Ocean acidification (OA) poses a major threat to marine organisms, particularly during reproduction when externally shed gametes are vulnerable to changes in seawater pH. Accordingly, several studies on OA have focused on how changes in seawater pH influence sperm behaviour and/or rates of in vitro fertilization. By contrast, few studies have examined how pH influences pre-fertilization gamete interactions, which are crucial during natural spawning events in most externally fertilizing taxa. One mechanism of gamete interaction that forms an important component of fertilization in most taxa is communication between sperm and egg-derived chemicals. These chemical signals, along with the physiological responses in sperm they elicit, are likely to be highly sensitive to changes in seawater chemistry. In this study, we experimentally tested this possibility using the blue mussel, Mytilus galloprovincialis, a species in which females have been shown to use egg-derived chemicals to promote the success of sperm from genetically compatible males. We conducted trials in which sperm were allowed to swim in gradients of egg-derived chemicals under different seawater CO2 (and therefore pH) treatments. We found that sperm had elevated fertilization rates after swimming in the presence of egg-derived chemicals in low pH (pH 7.6) compared to ambient (pH 8.0) seawater. This observed effect could have important implications for the reproductive fitness of external fertilizers, where gamete compatibility plays a critical role in modulating reproduction in many species. For example, elevated sperm fertilization rates might disrupt the eggs’ capacity to avoid fertilizations by genetically incompatible sperm. Our findings highlight the need to understand how OA affects the multiple stages of sperm-egg interactions, and to develop approaches that disentangle the implications of OA for female, male and population fitness.


These data contain fertilization success scores from gametes of the mussel Mytilus galloprovincialis, following sperm chemotaxis trials in two different seawater pH treatments (ambinet and experimentally lowered pH). They also contain seawater carbonate chemostry measurements (pH on the total scale and total alkalinity) from each batch of seawater at each treatment.

Usage notes

The first spreadsheet contains fertilization success scores following sperm chemotaxis trials at the two pH treatments. Columns included are experimental block number, focal male (sperm donor) ID, pH treatment in chemotaxis chamber, fertilization design (unstandardised or standardised pH conditions in the fertilization pools - see manuscript for full description), focal male fertilization success, focal male failures (eggs not fertilized), and total eggs counted. The second spreadsheet contains seawater carbonate chemistry measurements from the seawater batches in each experimental block. The columns include sample ID (block and pH treatment), temperature, salinity, pH on the total scale (measured potentiometrically via calibration against Tris buffers) and total alkalinity (measured via potentiometric titration). 


Australian Research Council, Award: DP170103290