Temperature-driven inter-annual variability in reproductive investment in the common whelk Buccinum undatum

Abstract

Global temperatures are rapidly changing, causing shifts in both biotic and abiotic environments. In the short term, physiological plasticity is likely to play an important role in the survival of species. We studied the association between temperature and reproductive investment in the common whelk Buccinum undatum, a North Atlantic gastropod exhibiting non-pelagic development. We calculated the number of eggs per capsule volume and egg energetic status (Carbon: Nitrogen (C: N) ratio) for egg masses from a temperate population of whelks from the Solent, UK over a four-year period (2009–2013). Data were compared with egg masses from a sub-Arctic population from Iceland collected in 2011. Results were compared to local seasonal water temperatures to examine the association between temperature and reproductive investment. In the Solent, average winter temperatures increased significantly between 2009 and 2013, the winter increase being significant. Both the number of eggs per capsule volume and the C:N ratio of eggs increased significantly between the initial and final spawning years. The number of eggs per capsule volume was significantly lower in eggs collected in Iceland, but C:N ratio was significantly higher. The results indicate that shifts in reproductive investment in B. undatum are associated with environmental temperature. B. undatum appears to show a high level of physiological plasticity in reproduction which may, in the short term, facilitate species survival as annual temperature shifts become more variable.