Ocean acidification impacts sperm swimming performance and pH_i in the New Zealand sea urchin Evechinus chloroticus

In sea urchins, spermatozoa are stored in the gonads in hypercapnic conditions (pH<7.0). During spawning, sperm are diluted in seawater of pH>8.0, and there is an alkalinization of the sperm's internal pH (pH_i) through the release of CO₂ and H⁺. Previous research has shown that when pH_i is above 7.2-7.3, the dynein ATPase flagellar motors are activated, and the sperm become motile. It has been hypothesised that ocean acidification (OA), which decreases the pH of seawater, may have a narcotic effect on sea urchin sperm by impairing the ability to regulate pH_i, resulting in decreased motility and swimming speed. Here we use data collected from the same individuals to test the relationship between pH_i and sperm motility/performance in the New Zealand sea urchin Evechinus chloroticus (Valenciennes) under near- (2100) and far-future (2150) atmospheric pCO₂ conditions (RCP 8.5: pH 7.77, 7.51). Decreasing seawater pH significantly negatively impacted the proportion of motile sperm), and four of the six computer-assisted sperm analysis (CASA) sperm performance measures. In control conditions, sperm had an activated pH_i of 7.52. E. chloroticus sperm could not defend pH_i. in future OA conditions; there was a stepped decrease in the pH_i at pH 7.77, with no significant difference in mean pH_i between pH 7.77 and 7.51. Paired measurements in the same males showed a positive relationship between pH_i and sperm motility, but with a significant difference in the response between males. Differences in motility and sperm performance in OA conditions may impact fertilization success in a future ocean.